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https://github.com/vmayoral/ros-robotics-companies

A list of robotics companies using the Robot Operating System (ROS and ROS 2).
https://github.com/vmayoral/ros-robotics-companies

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A list of robotics companies using the Robot Operating System (ROS and ROS 2).

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[![](https://img.shields.io/badge/ROS%20robotics%20companies-714-CCCCFF.svg)](https://github.com/vmayoral/ros-robotics-companies#active-companies) [![](https://img.shields.io/badge/ROS%20robotics%20companies%20acquired-21-9FE2BF.svg)](https://github.com/vmayoral/ros-robotics-companies#companies-acquired-closed-or-inactive) [![](https://img.shields.io/badge/ROS%20navigation%20users-63-40E0D0.svg)](https://github.com/vmayoral/ros-robotics-companies#navigation) [![](https://img.shields.io/badge/ROS%20manipulation%20users-53-6495ED.svg)](https://github.com/vmayoral/ros-robotics-companies#manipulation) [![](https://img.shields.io/badge/ROS%20perception%20users-141-FFBF00.svg)](https://github.com/vmayoral/ros-robotics-companies#perception)

# ROS Robotics Companies

[**Active companies**](#active-companies) ┃ [Acquired, closed or inactive](#companies-acquired-closed-or-inactive) | [Contribute](#contribute) | [`navigation` users](#navigation) | [`manipulation` users](#manipulation) | [`perception` users](#perception)

A public list of companies that are known to use the Robot Operating System (ROS and ROS 2) or any of its related tools for development, to create products, to offer services or who ship ROS with or as part of their product(s). Ordered alphabetically. See [criteria](#criteria) for more details.

### Active companies

| Company | Description | Year Founded|
|---------|-------------|------|
| [Acceleration Robotics](https://accelerationrobotics.com) | Hardware Acceleration solutions for robots using ROS 2. Robot-specific processing unit ([`ROBOTCORE®`](https://accelerationrobotics.com/products.php)), FPGA and GPU hardware acceleration tools (e.g. [`ROBOTCORE®` Framework](https://accelerationrobotics.com/robotcore-framework.php)) and ROS 2 API-compatible robot Intellectual Property (IP) cores (`robot cores` such as [`ROBOTCORE®` Perception](https://accelerationrobotics.com/robotcore-perception.php) or [`ROBOTCORE®` Transform](https://accelerationrobotics.com/robotcore-transform.php)). | 2021 |
| [ACEINNA](http://www.aceinna.com/) | Create sensing solutions for the development of innovative [Inertial](https://www.aceinna.com/inertial-systems) Measurement Unit (IMU) and current [sensing](https://www.aceinna.com/current-sensors) technologies for cars, robots and other autonomous applications. ROS driver for Aceinna OpenRTK products (see [`aceinna_openrtk_ros_driver`](https://github.com/Aceinna/aceinna_openrtk_ros_driver))[^111]. | 2017 |
| [Accenture](https://www.accenture.com/in-en) | Offering robotics and edge computing consulting services around ROS. Hiring engineers with experience in ROS ([Edge Computing Application Lead](https://www.linkedin.com/jobs/view/3475376709/)). | 1989 |
| [Accerion](https://accerion.tech/) | Make infrastructure-free positioning technology for mobile robots and AGVs. Triton[^79], simplify high-performance AMR functions in logistics. ROS driver for Interfacing with Triton sensor (see [`accerion-ros-node`](https://gitlab.com/accerion/accerion-ros-node)). | 2015 |
| [Accio Robotics](https://www.acciorobotics.com/) | Design and manufacture of state-of-the-art Robotics Automation solutions. Hiring ROS engineers ([Robotics Software Engineer](https://angel.co/company/accio-robotics-1/jobs/1442403-robotics-software-engineer)). | 2019 |
| [Active8 Robots](http://www.active8robots.com) | Deliver automated solutions in robotics technologies and automation. They provide robotic automation for projects and common processes. Their products include robots, installation-ready automation cells, end-of-arm tooling, end-of-line automation, and so on. The company uses the ROS Manipulation stack (MoveIt) in the [AR10 Robotic Hand](https://moveit.ros.org/robots/). | 2013 |
| [ADASTEC](https://www.adastec.com/) | Deliver SAE Level-4 Automated Driving Software Platform for commercial vehicles to enable OEMs to develop modern, automated, shared, and connected commercial vehicles. Hiring ROS engineers ([Planning Software Engineer](https://kpm.metu.edu.tr/planning-software-engineer-adastec-teknoloji-as/)). | 2018 |
| [Addverb](https://addverb.com/) | Deliver automation solutions to improve intralogistics operations. Hiring ROS engineers ([Robotics Engineer](https://addverb.com/career/robotics-engineer/)). | 2016 |
| [Adinkra](https://adinkratech.com/) | Specializes in end-to-end robotics and AI product development with a focus on autonomous drones, high-fidelity simulation, and computer vision. Adinkra developed and deployed an advanced real-time perception system, retrained for an aerial perspective and built on [ROS2](https://adinkratech.com/case_studies/real-time-object-tracking-for-drones/). | 2020 |
| [ADLATUS Robotics GmbH](http://www.adlatus-robotics.com) | Designs and manufactures autonomous mobile robots for use in industrial environments such as manufacturing, logistics, and warehousing. ROS 2 drivers to develop and control their autonomous mobile robots (see [`adlatusrobotics`](https://github.com/adlatusrobotics)). | 2015 |
| [ADLINK Technology](https://www.adlinktech.com/en/index) | Provide a wide range of embedded computing products and services to the test and measurement, automation and process control, gaming, communications, medical, network security, and transportation industries. ADLINK is using Navigation stack in their products like the [ROScube-X series](https://www.adlinktech.com/Products/Download.ashx?type=MDownload&isDatasheet=yes&file=1783%5CROScube-X_series_DS.pdf) of embedded systems for robots. ADLINK offers a [AMR visual SLAM navigation solution](https://www.adlinktech.com/en/kudan-amr-visual-slam). Empowering tracking in Autonomous Mobile Robots (AMRs). ROS2 Navigation (see [`Adlink-ROS/navigation2`](https://github.com/Adlink-ROS/navigation2)). | 1995 |
| [Advanced Micro Devices (AMD)](https://amd.com) | High-performance and adaptive computing leader, GPU, CPU and FPGA solutions. Kria SOMs feature ROS 2 support and provide hardware acceleration capabilities to roboticists. | 1969 |
| [Advanced Navigation](https://www.advancednavigation.com) | Specializes in the development of navigation technologies and robotics. ROS driver for Advanced Navigation [devices](https://www.advancednavigation.com/inertial-systems/) (see [`advanced_navigation_driver`](https://github.com/ros-drivers/advanced_navigation_driver)). | 2010 |
| [Aeolus Robotics](http://aeolusbot.com/) | Bring autonomous two-armed robots to service sectors. The company works around artificial intelligence, robotics, computer vision, and human-robot Interaction. Hiring ROS engineers ([Robotics developers](https://discourse.ros.org/t/robotics-mobility-vision-and-manipulation-positions-at-aeolus-robotics/1334)). | 2016 |
| [Aerobotix](http://aerobotix.net) | Robotic solutions for the aerospace and defense industries. Specialize in the creation of cutting-edge automated robotic solutions for high-value, high-precision components, aircraft, and vehicles. Aerobotix used ROS to handle all MIR motion[^113]. The company is [currently members](https://rosindustrial.org/current-members) of ROS-Industrial. | 2005 |
| [AeroVect](http://aerovect.com/) | Develop autonomous driving platforms for GSE. Hiring engineers with experience in ROS ([Vehicle Integration Engineer](https://discourse.ros.org/t/airport-autonomous-vehicle-startup-looking-for-ros-developers-in-san-francisco/21053)). | 2020 |
| [AeroVironment](https://avinc.com/) | Leader in the markets for small Unmanned Aircraft Systems, Tactical Missile Systems, High-Altitude Pseudo-Satellites and Commercial Information Systems. Offer flexible software control options including via ROS[^197][^198] | 1971 |
| [Aeva](http://www.aeva.com) | Develop a sensing and perception paradigm for autonomous machines. Hiring ROS engineers ([Senior Localization Engineer](https://www.aeva.com/career/?lv_jid=5eebfe09-4d72-4f59-a7bb-d39c8bebc7c6)). | 2017 |
| [AEye](https://www.aeye.ai/) | Create software-defined lidar solutions that enable advanced driver-assistance, vehicle autonomy, smart infrastructure, logistics and off-highway applications. Hiring ROS engineers ([ROS1 and ROS2 developer](https://discourse.ros.org/t/aeye-public-lidar-company-looking-for-ros1-and-ros2-developer/26493)). | 2013 |
| [AGCO](https://www.agcocorp.com/) | Global leader in the design, manufacture and distribution of smart solutions for sustainable agriculture. Hiring engineers with experience in ROS ([Systems Engineer (m/f/d) Logical Architecture](https://careers.agcocorp.com/job/Marktoberdorf-Systems-Engineer-%28mfd%29-Logical-Architecture/952146200/)). | 1990 |
| [AgileX Robotics](https://www.agilex.ai/?lang=en-us) | Develop a full line-up of robotics UGV covering all terrains and payloads, including general UGV, indoor AGV, tracked UGV. The world’s first ROS2 mobile robot navigation open source education kit released[^377]. | 2016 |
| [AgriData Innovations](http://adinnovations.nl/) | Develop hardware and software solutions to improve the efficiency and effectiveness of greenhouses. Using state-of-the-art camera systems, data analysis software and presentation of actionable insights for data-driven greenhouse management. Hiring engineers with experience in ROS ([Embedded / Electrical Engineer](https://talents.yesdelft.com/careers/embedded-electrical-engineer-adi)). | 2018 |
| [Agrograde](https://agrograde.com/) | Automate the grading and sorting process of fruits and vegetables by using computer vision. Company worker works as a [ROS developer](https://www.linkedin.com/in/sayooj-p/?trk=public_profile_browsemap_profile-result-card_result-card_full-click&originalSubdomain=in). | 2018 |
| [AICA](https://aica.tech/) | Artificial Intelligence for Collaboration and Automation; a modular and intuitive robot programming framework of smart components for AI-based motion generation and compliant control. Their technology stack supports ROS2 and ros2_control interfaces (see [`AICA docker images`](https://github.com/aica-technology/docker-images)). | 2019 |
| [Aidrivers](https://www.aidrivers.ai/) | Accelerate autonomous mobility technology to meet industry needs for optimization, resilience, and safety for a sustainable future. Hiring ROS engineers ([Autonomy Engineer (Drive Control)](https://www.mycareersfuture.gov.sg/job/engineering/autonomy-engineer-aidrivers-singapore-49f864dfe7606b4428fd35464d97240d)). | 2018 |
| [Airbound](https://airbound.co/) | Develop a delivery platform designed to provide drone delivery services. The company specializes in robotics, autonomy, and designs and allows users to order from local shops through its app and it delivers the order by drone. Hiring engineers with experience in ROS ([Robotics/Autonomy Engineer](https://discourse.ros.org/t/robotics-autonomy-engineer-at-airbound/32533/1)). | 2020 |
| [Airbus](https://www.airbus.com/en) | Global leader in aeronautics, space and related services. Using ROS for various purposes and across divisions. Hiring ROS engineers ([Robotic Engineer](https://www.linkedin.com/jobs/view/3295097708/)). | 2011 |
| [Airvolute](https://www.airvolute.com/) | Drones and Aupilots with ROS based system for autonomous flight[^200][^201]. | 2020 |
| [Aivot](https://www.aivot.com/) | Build fast-learning and low-cost humanoid robots. ROS drivers for Aivot robots (see [`AivotRobotics`](https://github.com/AivotRobotics)). | 2017 |
| [Akara Robotics](https://www.akara.ai/) | Akara provides robots for disinfecting hospital rooms. The product Violet is an ultraviolet light robot, which is clinically proven to kill viruses, bacteria, and harmful germs. Akara Robotics is an AI-based robot with a mission of developing social assistance robots that can support staff and residents in retirement communities. Hiring ROS engineers ([Autonomous Navigation Engineer](https://discourse.ros.org/t/autonomous-navigation-engineer-akara-robotics/25166)). | 2019 |
| [Alias Robotics](https://www.aliasrobotics.com/) | Robot cybersecurity products and services around ROS and ROS 2 systems[^192]. The company is a relevant contributor to the ROS 2 Security WG[^190][^191] and is also behind the Robot Immune System (RIS)[^1], an endpoint protection platform for robots that offers ROS and ROS 2 additional security layers. | 2018 |
| [AMP Robotics](http://amprobotics.com) | The use of automation and AI to modernize the recycling infrastructure worldwide. Recycling from mixed material streams is identified and sorted automatically by the high-speed robotics system AMP CortexTM. The AMP NeuronTM AI platform constantly improves itself by identifying materials and their recyclable nature. Hiring engineers with experience in ROS ([Mid-level Robot Software Engineer](https://wellfound.com/company/amp-robotics/jobs/1216296-mid-level-robot-software-engineer)). ROS drivers for AMP Robotics (see [`AMP-Robotics`](https://github.com/AMP-Robotics)). | 2015 |
| [AMS (Advanced Mechatronics Solutions)](https://www.ams-fa.com/) | Industrial automation company specializing in automated factory equipment. Hiring engineers with experience in ROS ([Robotic Software Engineer](https://www.linkedin.com/jobs/view/3762631636)). | 2002 |
| [Amsted Rail](http://www.amstedrail.com/) | Design of fully integrated freight car systems for the heavy haul rail market. The company is [currently members](https://rosindustrial.org/current-members) of ROS-Industrial, is an open-source project that extends the advanced capabilities of ROS to manufacturing automation and robotics (see [`ros-industrial`](https://github.com/ros-industrial))[^132]. | 1977 |
| [Analog Devices](https://www.analog.com/en/index.html) | World leader in high-performance analog and digital electronics offering cutting-edge sensing, measurement, power management, communication, and signal processing technologies. They released and maintain ROS Drivers for some of their MEMS sensors (e.g. see ADIS16470). ROS node for Analog Devices Inc. Inertial Measurement Units (IMU) (see [`analogdevicesinc/adi_imu_ros`](https://github.com/analogdevicesinc/adi_imu_ros)). | 1965 |
| [Angel Robotics](https://angel-robotics.com/ko/) | Robotic technology company that offers wearable robotic devices for disabled people. Talk at [ROSCon 2022](https://roscon.ros.org/2022/): Wearable ROS: Development of wearable robot system using ROS 2 . The Angel Robotics ROS project (see [`angel_ros`](https://github.com/Angel-Robotics/angel_ros)). | 2017 |
| [Angsa Robotics](https://angsa-robotics.com) | Specializes in the development and production of industrial robots and automation equipment. The company's products are used in a variety of industries, including automotive, electronics and food. Hiring ROS engineers ([Robotics Software Engineer](https://angsa-robotics.com/uploads/projects/2021_Software.pdf)). | 2019 |
| [Angulair](http://www.angulair.com) | Deliver solutions for defence, agriculture, high rise tower, windmill inspection etc using MAV based solutions with their power tethered drones. Hiring ROS engineers ([Embedded/ Firmware Engineer](https://www.angulair.com/job-embedded-firmware-engineer/)). | 2019 |
| [Ant Robotics](https://antrobotics.de/) | Develop autonomous platform solutions in various sectors. Their first robot platform helps in the agricultural field where they use image recognition and deep learning algorithms to precisely identify and remove harmful weeds among crops. Hiring ROS engineers ([ROS engineers](https://discourse.ros.org/t/fulltime-or-internship-in-navigation-for-outdoor-mobile-robot-in-agriculture/28714/1)). | 2021 |
| [ANYbotics](https://www.anybotics.com/) | Develop mobile robotics for industrial applications. The simulation software to extend ANYmal’s (four-legged robots) capabilities and interface through the ROS APIs and open-source ecosystem. ROS drivers for ANYbotics (see [`ANYbotics`](https://github.com/ANYbotics)). | 2016 |
| [Apex.AI](https://www.apex.ai/) | Specializes in developing operating systems for autonomous vehicles. Its software products are based on open-source software such as ROS or Eclipse iceoryx. [Apex.AI](https://www.apex.ai/) is a proud supporter of Open Robotics, ROS and ROSCon. | 2017 |
| [Apollo]( http://apollo.auto) | An open autonomous driving platform. The Apollo-platform solution under ROS directory (see [`apollo-platform`](https://github.com/ApolloAuto/apollo-platform)). Sponsor of the [ROScon](https://roscon.ros.org/2018/) 2018 [^169]. | 2017 |
| [Applanix Corporation](http://www.applanix.com) | Develop advanced products and scalable solutions that maximize productivity through Mobile Mapping and Positioning. ROS driver for Applanix hardware (see [`applanix_driver`](https://github.com/clearpathrobotics/applanix_driver))[^176]. | 1991 |
| [Apple](http://www.apple.com) | Design, manufacture, and market consumer electronics, personal computers, and software. Sponsor of the [ROScon](https://roscon.ros.org/2018/) in 2018. Seeking for ROS engineers[^276]. | 1976 |
| [Apptronik](https://apptronik.com/) | Builds and designs human-centered robotics systems. [Draco](https://apptronik.com/our-work/) is Apptronik’s first biped. The system can be a platform for any humanoid system, with easy integration between systems because of the open access to low level control software and libraries for RT Linux/ROS[^120] integration. | 2015 |
| [Aptiv](https://www.aptiv.com/) | Manufacturer of software-defined vehicles and solve mobility’s toughest challenges in autonomous driving. Hiring engineers with experience in ROS ([Software Engineer](https://www.aptiv.com/ja/%E6%8E%A1%E7%94%A8%E6%83%85%E5%A0%B1/%E6%A4%9C%E7%B4%A2%E3%82%B8%E3%83%A7%E3%83%96/%E3%82%AA%E3%83%BC%E3%83%97%E3%83%B3%E3%83%9D%E3%82%B8%E3%82%B7%E3%83%A7%E3%83%B3/J000640904)). | 1994 |
| [ARAV](https://www.arav.jp/) | Offer automated construction equipment. Sponsor of the [ROScon](https://roscon.ros.org/2022/) 2022. | 2020 |
| [Arbe](http://www.arberobotics.com) | Offers Real Time 4D Imaging Radar for autonomous driving. Hiring ROS engineers ([Software Tools Development Team Lead](https://arberobotics.com/careers/software-tools-development-team-lead-tel-aviv-israel/)). | 2015 |
| [ARC Specialties](http://www.arcspecialties.com) | Design and build automated manufacturing systems and custom equipment for joining, cladding, and other applications. The company is [currently members](https://rosindustrial.org/current-members) of ROS-Industrial, is an open-source project that extends the advanced capabilities of ROS to manufacturing automation and robotics (see [`ros-industrial`](https://github.com/ros-industrial))[^131]. | 1983 |
| [Arche Robotics](http://archerobotics.com/) | Design, manufacture, and commercialize “people-centric” robotics systems across a wide variety of sectors. Company worker works as a [ROS developer](https://www.linkedin.com/in/kayracoskun/). | 2021 |
| [ARI](http://www.arifleet.com/) | Offer business, vehicle and driver management solutions to various industries. Hiring ROS engineers ([Robotic Software Engineer](https://in.indeed.com/viewjob?jk=f31146b9111f3ecb&tk=1gppq1pd4k998800&from=serp&vjs=3)). | 1948 |
| [Arm](https://www.arm.com/) | Design the technology building blocks that semiconductor designers, equipment manufacturers, and others use to create silicon chips and specialized compute systems. | 1990 |
| [ARM Institute](http://www.arminstitute.org) | Accelerate the development and adoption of innovative robotics technologies. Make robotics, autonomy and artificial intelligence more accessible to U.S. manufacturers. An analysis of how the ARM projects have used ROS[^114]. | 2017 |
| [ARTI](https://www.arti-robots.com) | Develop software for ground-bound autonomous mobile robots. Hiring engineers with experience in ROS ([Robotic Software Developer](https://arti-robots.com/about/)). | 2019 |
| [Artisense](https://www.artisense.ai) | Provide a globally leading 3D-vision technology, enabling vehicles, robots and UAVs navigate effectively in any space without GPS. Artisense provides ROS 1 and ROS 2 support, making it quick and simple for clients to work with our system [^175]. | 2016 |
| [Ascent Robotics](https://www.ascent.ai) | Develop intelligent solutions in industrial robotics and autonomous vehicles. Deliver software to achieve true machine autonomy. ROS drivers (see [`ascentai`](https://github.com/ascentai)). | 2016 |
| [Ascento Robotics](https://www.ascento.ch/) | Offers autonomous outdoor security patrol robots as a service. ROS drivers for Ascento Robotics (see [`ascento-robotics`](https://github.com/ascento-robotics)). | 2023 |
| [Asea Brown Boveri (ABB)](https://global.abb/group/en) | Provide power and automation technologies for smart grids, robotics, electric cars, renewable energy and motors. The company is [currently members](https://rosindustrial.org/current-members) of ROS-Industrial. | 1988 |
| [Asensus Surgical](https://asensus.com/) | Medical device company that digitizes the interface between the surgeon and the patient. Sponsor of the [ROScon](https://roscon.ros.org/2023/) 2023. ROSCon is a developers conference [^379]. | 2006 |
| [ASIMOV Robotics](http://www.asimovrobotics.com) | Supply Robot and machine vision systems, control and simulation software, navigation systems, educational robots, industrial robots, and sensors and sensor modules. The software system of some robots is written entirely in [ROS](http://wiki.ros.org/Robots/X-Terrabot). | 2012 |
| [Asimovo](https://asimovo.com/) | A cloud based platform for developing and testing robots and autonomous systems. Sponsor of the [ROScon](https://roscon.ros.org/2023/) 2023. ROSCon is a developers conference [^379]. | 2023 |
| [Atlas Robotics](https://www.atlas-robotics.com) | Fully autonomous L4 pallet trucks/stackers for indoor factories, making them as standalone products or autonomy kits. Hiring engineers with experience in ROS ([Software Engineer](https://www.atlas-robotics.com/software-engineer)). | 2021 |
| [AUBO Robotics](https://www.aubo-cobot.com/public/index3) | Manufacture lightweight collaborative robots. This repository is used to control real aubo's MRA(module robot arm) by the ros control (see [`mra_ros_control`](https://github.com/AuboRobot/mra_ros_control))[^23]. | 2013 |
| [Auro](http://www.auro.ai) | Develop L4 autonomous driving technologies. ROS drivers (see [`Develop L4 autonomous driving technologies`](https://github.com/AuroAi)). | 2015 |
| [Auterion](https://auterion.com/) | Provide the ecosystem of software-defined drones, payloads, and third party applications within a platform based on open-source standards. Auterion driving [ROS 2](https://auterion.com/auterion-driving-ros-2-adoption-for-flying-robots/) adoption for flying robots. | 2017 |
| [Autobots INC](https://autobots-inc.com/) | Develop a wide range of products: [6 axis cobot](https://autobots-inc.com/cobots-1), desktop [robots for education](https://autobots-inc.com/educational-robots), [grippers](https://autobots-inc.com/electrical-grippers) and [robot simulation and control software](https://autobots-inc.com/simulation-software). Their electric grippers supported by [ROS](https://autobots-inc.com/electrical-grippers). | 2017 |
| [AutoCore.ai](https://autocore.ai/) | High Performance Functional Safety Middleware Platform for Intelligent Mobility at Scale. Development or migration of existing applications, or/and integration with AutoSAR as well as [ROS](https://autocore.ai/acsys.html)-based designs | 2018 |
| [AutomationWare](https://automationware.it) | Develops and produces mechatronic components for robotics solutions with the use of ROS and ROS 2. All of their collaborative robots are supplied with the installation of a basic [ROS package](https://automationware.it/ros-eng/?lang=en). | 2002 |
| [AutonomouStuff](http://www.autonomoustuff.com) | Provider of autonomy-enabling technologies that specializes in [perception sensors](https://autonomoustuff.com/products?para1=LiDAR), [GPS](https://autonomoustuff.com/products?para1=Mapping), and [computing](https://autonomoustuff.com/products?para1=Computing). ROS drivers for AutonomouStuff (see [`astuff`](https://github.com/astuff)). | 2010 |
| [Autoware Foundation](https://www.autoware.org/) | Is the world’s leading open-source software project for autonomous driving. Autoware is built on [Robot Operating System (ROS)](https://www.autoware.org/) and enables commercial deployment of autonomous driving in a broad range of vehicles and applications. | 2015 |
| [Avidbots](https://avidbots.com/) | Supporting autonomous cleaning robots. NEO is the smartest autonomous cleaning robot produced by Avidbots. NEO is used in industrial areas, shopping centers, hospitals, and colleges, among other places. Hiring ROS engineers ([Senior Software Developer](https://discourse.ros.org/t/multiple-software-jobs-available-avidbots/19493)). | 2014 |
| [AVL](https://www.avl.com/) | Develop and improves all kinds of powertrain systems and is acompetent partner to the engine and automotive industry. Simulation: In addition, develops and markets the simulation methods which are necessary for the development work. AVL Ajunic® controller platform for autonomous driving development, can be programmed with [ROS](https://www.avl.com/-/avl-adas-ecu). | 1948 |
| [Avnet](http://www.avnet.com) | Is a global technology solutions company. Sponsor of the [ROScon](https://roscon.ros.org/jp/2019/) JP 2019. ROSCon is a developers conference [^166]. | 1921 |
| [Avular](http://www.avular.com) | Accelerates the creation of mobile robot applications with their modular hardware and software building blocks (The Essentials) and their flying and driving robot platforms (The Pioneers). Hiring ROS engineers ([Control engineer for Mobile Robotics](https://avular.com/careers/control-engineer-for-mobile-robotics/)). | 2014 |
| [AWS RoboMaker](https://aws.amazon.com/robomaker/) | Cloud-based simulation service that enables robotics developers to run, scale, and automate simulation. Uses [ROS](https://aws.amazon.com/es/blogs/robotics/preparing-ros-application-and-simulation-containers-for-aws-robomaker/) to provide a standardized platform for building robotic applications. This makes it easier for developers to build, test, and deploy robotic applications using AWS infrastructure. | 2006 |
| [A&K Robotics](http://www.AandKrobotics.com) | Design electric micro-mobility platforms and self-driving robotic pods to help improve quality of life and positively impact the environment. Their autonomous robots empower people with limited mobility to travel and navigate long distances in places such as airports, malls and museums. An image processing pipeline for ROS for A&K Robotics (see [`akrobotics/image_pipeline`](https://github.com/akrobotics/image_pipeline)). | 2015 |
| [Badger Technologies](http://www.badger-technologies.com/) | Offer complete end-to-end solutions, from robot and software to store integration, maintenance and analytics. ROS drivers for Badger Technologies (see [`BadgerTechnologies`](https://github.com/orgs/BadgerTechnologies)). | 2017 |
| [Barnstorm Agtech](http://www.barnstormag.tech/) | Provide an open platform for precision and powered deployment of farm technology. Hiring ROS engineers ([PUNE Robotic Agtech R&D Engineering](https://in.joblum.com/job/pune-robotic-agtech-r-d-engineering/1194887)). | 2020 |
| [Barrett Technology](http://www.barrett.com) | Pioneer in collaborative robots that assist humans in their work. Robots made by Barrett, like WAM® and BURT®, use Barrett mechanisms, Puck® motor controllers, and open-source software to control their movements. ROS drivers for Barrett Technology (see [`BarrettTechnology`](https://github.com/BarrettTechnology)). | 1990 |
| [Bastian Solutions](http://www.bastiansolutions.com) | Is an independent material handling and robotics system integrator providing automated solutions for distribution and manufacturing. The company is [currently member](https://rosindustrial.org/current-members) of ROS-Industrial, is an open-source project that extends the advanced capabilities of ROS to manufacturing automation and robotics (see [`ros-industrial`](https://github.com/ros-industrial))[^133]. | 1952 |
| [Beagle Systems](https://www.beaglesystems.com/) | Provide Drones-as-a-Service for powerline / pipeline inspections. ROS2 drivers for Beagle Systems (see [`BeagleSystems`](https://github.com/BeagleSystems)). | 2019 |
| [Beagle Technology](https://www.beagle-tech.com/) | Uses AI and robotics software to transform traditional farming equipment with unseen accuracy, flexibility and intelligence. Hiring engineers with experience in ROS ([Director of Robotics](https://www.linkedin.com/jobs/view/director-of-robotics-at-beagle-technology-inc-3328013334/)). | 2021 |
| [Bear Robotics](https://www.bearrobotics.ai) | Autonomous Mobile Robots (AMRs) for the food service and hospitality. Hiring engineers with experience in ROS ([Robotics Software Engineer - System](https://bear-robotics.breezy.hr/p/caf7e2f65bc3-robotics-software-engineer-system)). | 2017 |
| [BeeX](http://www.beex.sg) | Design and manufacture Hovering Autonomous Underwater Vehicles (HAUVs). Hiring ROS engineers ([Robotics Engineer](https://www.linkedin.com/jobs/view/3450366275/?trackingId=dmISwE%2Fec7opNOw8SXyAIA%3D%3D&refId=5f96468d-fe1c-43c3-add2-f4277af8dc38&midToken=AQGM4kLzCLjyIw&midSig=1c_8ZMaJF7WqA1&trk=eml-email_job_alert_digest_01-job_card-0-jobcard_body&trkEmail=eml-email_job_alert_digest_01-job_card-0-jobcard_body-null-2oh2sl~lddbm7j8~gr-null-null&eid=2oh2sl-lddbm7j8-gr)). | 2018 |
| [Beta Robots](https://beta-robots.com/) | Offer a comprehensive software solution for intralogistics applications using autonomous mobility robots (AMR/AGV). Company worker works as a [ROS developer (Development of robotics software)](https://www.linkedin.com/in/andreucorominasmurtra/?originalSubdomain=es). | 2016 |
| [Beyond Vision](https://beyond-vision.pt/) | Certified Drones Manufacturer for professional applications or complex operations. Develops custom AI algorithms to achieve fully autonomous operations. Creator of an [user-friendly platform](https://beyond-vision.pt/bexstream/) providing total remote control of drones using ROS (see [our documentation](https://docs.beyond-vision.pt/heifu/ros.html)). | 2013 |
| [Birds Eye Robotics](https://www.birdseyerobotics.com) | Agtech startup focusing on animal welfare and labor reduction in commercial poultry farms. Hiring ROS engineers ([ROS software developer](https://discourse.ros.org/t/ros-software-developer-nav2-birds-eye-robotics-omaha-ne/25571)). | 2021 |
| [Bitcraze AB](https://www.bitcraze.io) | They develop and manufacture a small quadcopter called the Crazyflie[^29]. They also develop and maintain a supporting infrastructure with various tools to enable the end users to modify the Crazyflie in any way they want. Bitcraze LPS ROS driver (see [`lps-ros`](https://github.com/bitcraze/lps-ros)). | 2012 |
| [Black Coffee Robotics](https://blackcoffeerobotics.com) | They consult and provide development services to robotics companies, primarily working with ROS/ROS2 based software stacks. ROS drivers for Black Coffee Robotics (see [`blackcoffeerobotics`](https://github.com/blackcoffeerobotics)). | 2019 |
| [BlackBerry QNX](https://blackberry.qnx.com/en) | Supplier of commercial operating systems, hypervisors, development tools, support and services, all purpose-built for critical embedded systems. BlackBerry QNX helps to take advantage of a real-time operating system (RTOS) integrated with ROS2[^128]. [ROS2 QNX Documentation](https://ros2-qnx-documentation.readthedocs.io/en/galactic/index.html). | 1980 |
| [Blickfeld](https://www.blickfeld.com/) | LiDAR Solutions for a safe and efficient world. This package provides an ROS node and a nodelet for publishing PointCloud2 messages from Blickfeld LiDAR devices (see [`Blickfeld ROS package`](https://docs.blickfeld.com/cube/v1.0.0/external/ros/driver-v1/README.html)). | 2017 |
| [Blue Atlas Robotics](https://blueatlasrobotics.com/) | Manufactures underwater inspection robots. Robots track underwater surfaces such as ship hulls using automatic distance-keeping in any orientation. Company worker works as a [ROS developer](https://www.linkedin.com/in/antonis-karageorgiou-4b925b134/?originalSubdomain=dk). | 2018 |
| [Blue Ocean Robotics](https://www.blue-ocean-robotics.com/) | Develop professional service robots primarily in healthcare, hospitality, construction and agriculture. Hiring ROS engineers ([Robotics Software Developer](https://discourse.ros.org/t/robotics-software-developer-to-develop-uvd-robots-blue-ocean-robotics/24170)). | 2013 |
| [Blue Origin](www.blueorigin.com/) | Aerospace company that focuses on lowering the cost of spaceflight. Hiring engineers with experience in ROS ([Robotics Engineers](https://discourse.ros.org/t/space-robotics-engineering-opportunities-blue-origin-advanced-develop-programs/23387)). | 200 |
| [Blue River](http://www.bluerivertechnology.com) | Use of computer vision and robotics for agriculture. These robots are designed for the selection of which herbicides to use on each plant. Hiring ROS engineers ([Sr Perception Engineer](https://www.linkedin.com/jobs/view/3555808212/)). | 2011 |
| [Blue Robotics](https://bluerobotics.com) | Manufacturer of low-cost, high-performance components for marine robotics. [ROS](https://discuss.bluerobotics.com/t/ros-support-for-bluerov2/1550) support for [BlueROV2](https://bluerobotics.com/store/rov/bluerov2/). | 2014 |
| [BlueSpace.ai](http://www.bluespace.ai) | Is an urban mobility company that develops autonomous vehicle technology. Bluespace’s patented [Dynamic Predictive Perception](https://www.bluespace.ai/technology) software allows an autonomous system to “see” the velocity of all objects and in all directions, xsens ROS2 driver (see [`bluespace_ai_xsens_ros_mti_driver`](https://github.com/bluespace-ai/bluespace_ai_xsens_ros_mti_driver)). | 2019 |
| [Bluewhale Robot](http://www.bwbot.org) | Has a solution for visual navigation. Bluewhale Robot has dedicated to providing ultra-cost-effective robotic autonomous mobile systems for use in products such as sweeper, service robots, security robots, industrial AGV and unmanned forklifts. ROS drivers for Bluewhale Robot (see [`BlueWhaleRobot`](https://github.com/BlueWhaleRobot)). | 2015 |
| [BMW Group](http://www.bmwgroup.com) | Manufacter automobiles and motorcycles and also provides premium financial and mobility services. Automated driving with ROS[^115] at BMW. | 1916 |
| [Boeing](http://www.boeing.com/) | Is an aerospace company that manufactures commercial jetliners, defense, space and security systems, and global services. The company is [currently member](https://rosindustrial.org/current-members) of ROS-Industrial, is an open-source project that extends the advanced capabilities of ROS to manufacturing automation and robotics (see [`ros-industrial`](https://github.com/ros-industrial))[^134]. | 1916 |
| [Bonsai Robotics](https://www.bonsairobotics.ai/) | Provide vision-based automation solutions for off-road vehicles, such as agricultural machines. Hiring engineers with experience in ROS ([Motion Planning Engineer](https://ats.rippling.com/bonsairoboticsmain/jobs/16936b78-6fe2-4f64-b496-49073eda7869?jobSite=LinkedIn)). | 2022 |
| [Bosch](https://www.bosch.com/) | Global supplier of technology and services. The company is [currently member](https://rosindustrial.org/current-members) of ROS-Industrial, is an open-source project that extends the advanced capabilities of ROS to manufacturing automation and robotics (see [`ros-industrial`](https://github.com/ros-industrial))[^135]. | 1886 |
| [Bossa Nova](http://www.bossanova.com) | Provide real-time, on-shelf product data for the global retail industry. Sponsor of the [ROScon](https://roscon.ros.org/2018/) 2018. ROSCon is a developers conference [^169]. | 2005 |
| [Boston Dynamics](bostondynamics.com) | Boston Dynamics uses ROS-derived tools in their development and leverages code from ROS drivers that ship in their resources to operate their robots. They don't use the ROS message passing infrastructure directly, but a similar event-driven programming interface. Boston Dynamics robots have community drivers created by third parties which allow these robots to be first class participants of the ROS ecosystem (see [`spot_ros`](https://github.com/clearpathrobotics/spot_ros)). | 1992 |
| [BotBuilt](https://www.botbuilt.com/) | Creates construction components with robotic precision using AI and computer vision. Uses ROS and various ROS-related tools to build their robots. Hiring ROS engineers ([Senior Software Engineer](https://www.ycombinator.com/companies/botbuilt/jobs/8zZ1jOo-senior-software-engineer)). | 2020 |
| [BotsAndUs](https://www.botsandus.com/) | Captures real-time insights of warehouse operations using fully autonomous robots[^28] and Artificial Intelligence. The autonomous mobile and modular robots measure, track, and find goods across warehouses without workflow disruption. ROS Navigation stack, code for finding where the robot is and how it can get somewhere else (see [`navigation`](https://github.com/botsandus/navigation)). | 2015 |
| [Botronics](https://botronics.be/) | We are belgium based and we want to simplify the lives of humans by empowering machines to take on the most repetitive and tedious tasks, freeing up time for activities that are more creative and meaningful to humans. For this vision to become a reality, it is essential to work on the interface between machines and humans to make it as intuitive as possible, so that users can interact with machines without the need for specialist technical skills. You dream about a robot ables to deal with your company daily tasks ? We can help you ! We are the creator of the autonomous golf trolley[^380]. Technically speaking, we use ROS2 and implement business logic based on navigation using Nav2. | 2022 |
| [Botsync](https://www.botsync.co) | Builds heavy duty autonomous mobile robots[^65] to help companies transit from manual operations to automation. ROS Drivers for communicating with Botsync AMR (see [`botsync`](https://github.com/botsync)). | 2017 |
| [Bowery Farming](http://boweryfarming.com) | The company uses innovative technologies, including robotics, artificial intelligence, and data analytics, to grow a wide range of leafy greens and herbs in a highly efficient and sustainable way. ROS 3D Robot Visualizer (see [`BoweryFarming`](https://github.com/BoweryFarming/rviz)). | 2015 |
| [Boxbot](http://www.boxbot.io) | Build automation systems for parcel delivery. Their product integrates robotics and autonomous technologies into a scalable end-to-end solution. ROS package containing drivers for NMEA devices (see [`nmea_navsat_driver`](https://github.com/boxbotinc/nmea_navsat_driver)). | 2016 |
| [Brain Corp](http://braincorp.com/) | Robotics and AI company that specializes in developing software for autonomous mobile robots (AMRs) used in industries such as retail, hospitality, and healthcare. ROS drivers for Brain Corporation (see [`braincorp`](https://github.com/braincorp)). | 2009 |
| [BrainGarden](https://www.braingarden.ai) | They apply their experience in artificial intelligence to the domain fields, e.g. computer vision manufacturing and smart systems assembly, medical imaging analysis, FashionTech, Creative AI, and more. ROS Perception package (depthimage_to_laserscan) that converts a depth image to a laser scan for use with navigation and localization for BrainGarden (see [`BrainGardenAI/depthimage_to_laserscan`](https://github.com/BrainGardenAI/depthimage_to_laserscan)). | 2017 |
| [BringAuto](http://bringauto.com/) | Offer industrial delivery robots together with fleet management. They extending the experimentation facilities into robotic domains thorough standard Application Programming Interfaces (APIs) under Robot Operating System ([ROS](https://bringauto.com/en/5g-era/)). | 2019 |
| [Brisa Robótica](https://www.brisa.tech/) | Automate existing vehicles or develop new ones. Windrose[^69] is a solution to boost productivity in the supply chain. ROS Drivers (see [`brisa-robotics`](https://github.com/brisa-robotics)). | 2018 |
| [BSH Hausgeräte AG](https://www.bsh-group.com) | Produce and sell household appliances. Is one of the largest manufacturers of home appliances in the world. Hiring engineers with experience in ROS ([Software engineer (m/f/d) Robotics](https://jobs.bsh-group.de/27524-software-engineer-m-f-d-robotics/en/job.html?persisted_lang=en)). | 1967 |
| [Built Robotics](http://www.builtrobotics.com) | Transform excavators into fully autonomous trenching robots for the earthmoving industry. Sponsor of the [ROScon](https://roscon.ros.org/2018/) 2018. ROSCon is a developers conference [^169]. | 2016 |
| [Caja Robotics](http://www.cajarobotics.com/) | Offer robotic services with an automation solution for order picking efficiency and storage capacity of warehouses. Hiring engineers with experience in ROS ([SW Robotics Engineer](https://cajarobotics.com/careers/co/rd/DE.12B/sr-sw-robotics-engineer/all/)). | 2014 |
| [Candela](https://candela.com/) | Long-range electric boats powered by ROS. Hiring engineers with experience in ROS ([Autonomous Driving Software Engineer](https://vakanser.se/jobb/autonomous+driving+software+engineer+4/)). | 2014 |
| [Canonical](https://canonical.com/) | Computer software company that markets commercial support and related services for Ubuntu and related projects. Hiring engineers with experience in ROS ([Software Engineer - Robotics](https://discourse.ros.org/t/software-engineer-robotics-canonical-remote/20807)). | 2004 |
| [Canvas](https://www.canvas.build/) | Develop robotic systems for the construction industry. The company's robotic systems are designed to automate and optimize many of the labor-intensive and repetitive tasks involved in construction, such as material handling and installation. ROS drivers for Canvas robots (see [`Canvas-Construction`](https://github.com/Canvas-Construction)). | 2017 |
| [Capgemini Engineering](https://capgemini-engineering.com) | IT Services and IT Consulting. R&D services. Using ROS in their robotics activities. Hiring engineers with experience in ROS ([Senior Engineer](https://capgemini.taleo.net/careersection/1/jobdetail.ftl?job=070985)). | 1982 |
| [Capra Robotics](https://capra.ooo/) | Develop a platform for outdoor mobile robots. [Capra Hircus](https://capra.ooo/benefits/) supports autonomous navigation, when driving autonomously the robot follows a given path. The software used by the robot is [ROS 2](https://capra.ooo/benefits/specifications/). | 2017 |
| [Carbon Robotics](https://carbonrobotics.com/) | Build innovative agricultural tools that empower farmers to operate more efficiently. Hiring engineers with experience in ROS ([Engineers](https://discourse.ros.org/t/multiple-software-hardware-openings-carbon-robotics/860)). | 2018 |
| [Carnegie Robotics](http://carnegierobotics.com) | Build reliable robotics products and smart sensors for defense, agriculture, mining, infrastructure and energy applications. ros2 vision_opencv contains packages to interface ROS 2 with OpenCV for Carnegie Robotics (see [`carnegieroboticsllc/vision_opencv`](https://github.com/carnegieroboticsllc/vision_opencv)). | 2010 |
| [Cartken](https://www.cartken.com/) | Serve a ROS-based autonomous robot platform designed to transport goods over short distances and in local neighborhoods. Hiring engineers with experience in ROS ([Embedded Robotics Engineer](https://lensa.com/embedded-robotics-engineer-jobs/oakland/jd/ffb218b2ec9696befa96e9f4845ce355)). | 2019 |
| [Caterpillar](https://www.caterpillar.com/en.html) | Manufacture construction and mining equipment, diesel and natural gas engines, industrial gas turbines. The company is [currently member](https://rosindustrial.org/current-members) of ROS-Industrial, is an open-source project that extends the advanced capabilities of ROS to manufacturing automation and robotics (see [`ros-industrial`](https://github.com/ros-industrial))[^136]. | 1925 |
| [Cellula Robotics](https://www.cellula.com/) | Cellula specializes in the turnkey design and production of subsea robotic systems, including cruising and hovering autonomous underwater vehicles. Cellula uses ROS 1 and follows a paradigm of many small, simple, modular, configurable nodes. This allows the separation of software engineering and vehicle engineering / operation. Cellula uses the [UUV Simulator](https://uuvsimulator.github.io/) and is an active member of the [Maritime Robotics Working Group](https://discourse.ros.org/c/maritime/36) | 2001 |
| [Cepton](http://cepton.com/) | Develop [lidar-based](https://www.cepton.com/technology) solutions for [automotive](https://www.cepton.com/markets/overview), industrial, and mapping markets. Cepton ROS package (see [`cepton_ros`](https://github.com/ceptontech/cepton_ros)). | 2016 |
| [Chef Robotics](http://chefrobotics.ai) | Cooking robots powered by ROS. Hiring engineers with experience in ROS ([Solutions Architect](https://jobs.lever.co/ChefRobotics/e5963919-6cf7-453e-aa6e-5e5716b72177)). | 2019 |
| [CheungWon SFA](http://cwsfa.co.kr/) | Develop and manufacture various agricultural autonomous robots[^225] for the indoor smart farm. Registered as a partner of Doosan Robotics[^226] and OnRobot[^227]. ROS packages (see [`cwsfa`](https://github.com/cwsfa))[^103].| 2019 |
| [Clobot](https://www.clobot.co.kr/) | Is an autonomous robot service provider. They implement specialized robot services in consideration of the robot hardware and operating environment. ROS drivers (see [`CLOBOT-Co-Ltd`](https://github.com/CLOBOT-Co-Ltd)). | 2017 |
| [CM Labs Simulations](http://www.cm-labs.com) | Software company that specializes in the development of simulation and training solutions for heavy equipment operators. ROS used for industrial use cases. Participation in ROS-Industrial Conference 2022. | 2001 |
| [Coalescent Mobile Robotics](https://cm-robotics.com/) | Develops and manufactures autonomous mobile robots to automate the transportation process in the retail industry, both in store and in warehouse. The company's tech stack is built on top of ROS2 with a heavy use of navigation2 and microROS. (see [`cmrobotics`](https://github.com/cmrobotics)). | 2018 |
| [Cobalt Robotics](https://www.cobaltrobotics.com/) | Offer indoor security robots that do patrolling in the premises, as well as look for intruders or anything that's out of the ordinary; and comprise intruder and anomaly detection, human-robot interaction, and mapping and sensing capabilities. Hiring engineers with experience in ROS ([Solutions Engineer](https://startup.jobs/solutions-engineer-cobalt-robotics-4239951)). | 2016 |
| [COEX](https://coex.tech/) | Develop and manufacture of unmanned aerial vehicles. Multicopters[^27], developed by the company, are intended for the formation[^26], autonomous monitoring of territories and delivery of goods. ROS Drivers for communicating with COEX drones (see [`CopterExpress`](https://github.com/CopterExpress)). | 2014 |
| [Cognata](http://www.cognata.com) | Provide driving validation platform for the autonomous vehicles industry. [ROS](https://www.cognata.com/closed-loop-simulations/) integration enables thorough testing and evaluation of complex components such as perception and control stacks with Cognata scenarios, traffic and synthetic data. Hiring ROS engineers ([Software Engineer - Path Core Planning](https://boards.greenhouse.io/didi/jobs/4314438)) | 2016 |
| [Cognicept Systems](http://www.cognicept.systems) | Provide Human-in-the-loop (HITL) error handling with our telerobotic networking technology and human remote operators. ROS packages for automatic docking (see [`autodock`](https://github.com/cognicept-admin/autodock)). | 2018 |
| [Cogniteam](https://www.cogniteam.com/) | Develop artificial intelligence technologies for robots, working with companies on mapping, navigation and autonomous decision-making. Nimbus[^32] is the product that bring a Cloud-based robotic artifical intelligence solution. ROS Drivers for Cogniteam prodcuts (see [`cogniteam`](https://github.com/cogniteam)). | 2010 |
| [Cognizant](https://www.cognizant.com) | Provide digital, technology, consulting, and operations services to clients worldwide. Cognizant is one of the largest IT service providers. ROS used for industrial use cases. Participation in ROS-Industrial Conference 2022. | 1994 |
| [Cohesive Robotics](https://cohesiverobotics.com/) | Creating smarter industrial automation to modernize manufacturing’s most common fabrication and finishing processes. The company's first product is the Smart Finishing Workcell, a turnkey vision-based solution for sanding, grinding and more. The company's tech stack is ROS2 native and leverages `ros2_control` and various [ROS-Industrial](https://github.com/ros-industrial) efforts. | 2021 |
| [Collimator](http://www.collimator.ai) | Develop cloud-native engineering modeling and simulation software. Their simulation software allow to implement algorithms to service oriented architectures like [ROS](https://www.collimator.ai/industries/automotive). | 2020 |
| [Collins Aerospace](https://www.collinsaerospace.com/) | Aviation and Aerospace Component Manufacturing. Hiring engineers with experience in ROS ([Principal Physiological Monitoring Engineer](https://www.linkedin.com/jobs/view/3421337184/)). | 2018 |
| [Comau](http://www.comau.com) | Design advanced industrial automation systems, machinery, and robots for manufacturing and automotive industries. The company uses the ROS Manipulation stack (MoveIt) in the e.Do (see [`Comau/eDO_moveit`](https://github.com/Comau/eDO_moveit)). | 1973 |
| [Commonplace Robotics](https://cpr-robots.com/) | Develop, manufacture and distribute capable and cost-efficient robots for education, research and industry. Intuitive control software and open source driver complete their offering. Sources for hardware interface nodes and RViz pluing to run CPR robots with the ROS environment (see [`cpr_robot`](https://github.com/CPR-Robots/cpr_robot)). | 2011 |
| [Concurrent Real-Time](https://concurrent-rt.com/) | Provider of high-performance, real-time Linux software, hardware and professional services. Using ROS with RedHawk Linux on the NVIDIA Jetson TX2 [^110]. | 1966 |
| [Consciente Technologies](https://consciente.io/) | Develop and build robots, chips, and processors for real-world efficiencies. They work in development of model-based controllers for mobility or manipulation tasks, model prototyping, simulation, and functional testing on hardware. Hiring ROS engineers ([ROS Developer](https://www.naukri.com/recruiter-job-listings-ROS-Developer-Consciente-Technologies-Hyderabad-Secunderabad-0-to-3-years-14948870)). | 2021 |
| [Constructive Realities](http://constructiverealities.io) | Design and manufacture smart 3D camera systems on trusted edge platforms, delivering hardware accelerated sensor fusion systems oriented to reconstruction and spatial occupancy. PCL (Point Cloud Library) ROS interface stack for Constructive Realities (see [`constructiverealities/perception_pcl`](https://github.com/constructiverealities/perception_pcl)). | 2022 |
| [Continental](https://www.continental.com/en/) | Offers safe, efficient, intelligent and affordable solutions for vehicles, machines, traffic and transportation. ROS drivers for Continental (see [`continental`](https://github.com/continental)). | 1871 |
| [Corvus Robotics](https://www.corvus-robotics.com/) | Solutions to oversee the movement of physical goods using autonomous drones for warehouses powered by ROS. Hiring engineers with experience in ROS ([Senior Software Engineer, Planning & Localization](https://wellfound.com/company/corvus-robotics/jobs/1701428-senior-software-engineer-planning-localization)). | 2017 |
| [CrossWing](http://www.crosswing.com) | Create a customizable robotics platform. A planning and control system for CrossWing Nav2[^57]robots (see [`catnav2`](https://github.com/timtro/catnav2)). | 2006 |
| [Crover](https://www.crover.tech) | Creator of the world's first 'granular drone' (i.e. a 'CROVER'), in the sense of a device able to swim through bulk solids and powders, a.k.a. granular materials. The CROVER Grain Storage Management system is a robotic and automation tool primarily aimed at grain storage operators, such as farmers, grain merchants and cooperatives, helping them save money and maintain the quality of their stock. Hiring engineers with experience in ROS ([Robotics Engineer](https://discourse.ros.org/t/robotics-engineer-position-at-crover-ltd-edinburgh-scotland/13169)). | 2018 |
| [CTRL Robotics](https://www.ctrlrobotics.com/) | Platform that allows companies to setup a fleet of robots in their business within a day. Hiring engineers with experience in ROS ([ROS2 Developer](https://discourse.ros.org/t/ros2-developer-remote-ctrl-robotics/33886)). | 2020 |
| [Cyberbotics](https://cyberbotics.com) | Develop the Webots[^220] open-source robot simulator, including ROS[^221] and ROS 2[^222] interfaces, robot simulations on the web at webots.cloud[^223] and robotbenchmark.net[^224]. | 1998 |
| [CYBERDYNE](http://www.cyberdyne.jp/) | Develop a variety of innovative Cybernics devices and interfaces and advanced AI-Robot products to enable early detection and prevention for health maintenance. Hiring engineers with experience in ROS ([Software Engineer](https://www.ros.org/news/2015/01/)). | 2004 |
| [Cyberworks Robotics](https://www.cyberworksrobotics.com/) | An autonomous mobile robotics engineering company. Hiring ROS engineers ([ROBOTICS RESEARCH ENGINEERS](https://discourse.ros.org/t/open-positions-at-cyberworks-robotics/6313)). | 2008 |
| [Cyngn](https://www.cyngn.com/) | Autonomous Vehicle solutions and enterprise autonomy suite for industrial use cases across logistics, material handling, and mining. Hiring engineers with experience in ROS ([Senior Software Engineer](https://jobs.lever.co/cyngn/e83e6220-b3c2-47b9-80e9-e981518c3a3d)). | 2013 |
| [Dairy Robotics](http://dairyrobotics.ie/) | Design and manufacture an animal health monitoring devices and advanced robotic milking solution. Working system integrated with [ROS](http://dairyrobotics.ie/home_new/) complete. | 2021 |
| [Danlaw](http://www.danlawinc.com/) | Develop technology for smarter vehicles, safer roads, and more efficient cities.. Hiring engineers with experience in ROS ([Software Engineering Intern](https://www.simplyhired.com/job/noGNeD95GuAhNcPxGvKNI4FFu4IBFD6Z6Hy2XWPvUgZKBPlxUtByTQ)). | 1984 |
| [Dataspeed](https://www.dataspeedinc.com/) | Offer engineered hardware and software tools to researchers and developers working on mobility and robotics solutions. Dataspeed's ADAS Kit (Advanced Driver Assistance Systems) provides research and development platform. ROS CAN driver for Dataspeed Drive-by-Wire Kit (see [`dataspeed_can_driver`](https://github.com/VT-ASIM-LAB/dataspeed_can_driver))[^24]. | 2008 |
| [DeepEdge](https://deepedge.ai) | The DeepEdge platform is an integrated deep learning development platform that enables developers and enterprises to build, train, optimize and deploy deep learning models and applications to a variety of edge hardware. DeepEdge is investing in the The Robot Operating System ([ROS](https://deepedge.ai/services/FalconServices/)) | 2018 |
| [DeepRoute.ai](http://www.deeproute.ai/) | Self-driving technology company committed to popularizing Robotaxis and advancing urban logistics utilizing medium duty trucks . Hiring engineers with experience in ROS ([Software Engineer Planning](https://jobs.workable.com/view/obntcbzgKDQso6HMTgxCHp/software-engineer-planning-in-fremont-at-deeproute.ai)). | 2019 |
| [DEKA](http://www.dekaresearch.com/) | Medical Equipment Manufacturing. Building various robots, including robotic chairs. Hiring engineers with experience in ROS ([Control Systems Engineer](https://deka.applytojob.com/apply/gykkA8hM7Z/Control-Systems-Engineer)). | 1982 |
| [Delivers.AI](https://delivers.ai/) | Design autonomous mobile robots to take food from the store to the buyers' homes. Hiring ROS engineers ([Embedded Software Engineer](https://delivers.ai/jobs.html)). | 2020 |
| [Delta Electronics](https://www.deltaww.com/en-US/index) | Manufacture custom power supply solutions for telecommunications, IT, industrial automation, and automotive applications. The company is [currently member](https://rosindustrial.org/current-members) of ROS-Industrial, is an open-source project that extends the advanced capabilities of ROS to manufacturing automation and robotics (see [`ros-industrial`](https://github.com/ros-industrial))[^137]. | 1994 |
| [Dematic](http://www.dematic.com) | Provide a comprehensive range of intelligent intralogistics and materials handling solutions. Hiring engineers with experience in ROS ([Software Developer](https://www.linkedin.com/jobs/view/2931504585/?alternateChannel=search&refId=4rkpg5oSZ4ED8Yw2RZO5kA%3D%3D&trackingId=TYkrREbfNncQoMhjcgcEEA%3D%3D)). | 1819 |
| [Demine Robotics](https://deminerobotics.com/) | Develop unmanned machines to make the demining process faster and safer. An image processing pipeline for ROS for Demine Robotics (see [`DemineRobotics/image_pipeline`](https://github.com/DemineRobotics/image_pipeline)). | 2016 |
| [DENSO](https://www.denso.com/us-ca/en/) | Supplier of advanced automotive technology, systems and components for major automakers. ROS drivers (see [`DENSORobot`](https://github.com/DENSORobot)). | 1947 |
| [Detect Technologies](http://www.detecttechnologies.com) | Company offer solutions to help energy companies optimize their operations, improve safety, and increase efficiency. Hiring ROS engineers ([Robotics Simulation Developer](https://www.hireshala.com/job/hKQjaqOX/)). | 2016 |
| [Devanthro](http://www.devanthro.com/) | Build humanoid robotic for the care industry. Hiring engineers with experience in ROS ([Humanoid Robotics Engineer](https://discourse.ros.org/t/humanoid-robotics-engineer-devanthro/34903)). | 2018 |
| [Dexai Robotic](https://www.dexai.com) | The company specializes in the fields of robotics, machine vision, machine learning, AI, food service, automation, and restaurant equipment. An image processing pipeline for ROS for Dexai Robotics (see [`DexaiRobotics/image_pipeline`](https://github.com/DexaiRobotics/image_pipeline)). | 2018 |
| [Dexory](http://dexory.com) | Develop robotics and AI logistics solutions to drive better business decisions. Through their DexoryView platform they automate data collection and build real time fed digital twin technology that unlocks insights across all levels of warehouse operations. | 2015 |
| [DF Automation & Robotics](https://www.dfautomation.com/) | Automation company that designs, manufactures, markets, and maintains Autonomous Mobile Robot[^77] (AMR) also known as Automated Guided Vehicles (AGV) for various kinds of industrial and commercial use. ROS drivers (see [`dfautomation`](https://github.com/dfautomation)). | 2012 |
| [Diamond Age](http://www.didiglobal.com) | Construction robotics company. Automating new home construction through robotics. Hiring engineers with experience in ROS ([Robotics & Software Engineer](https://www.wayup.com/i-j-Diamond-Age-3D-568376825315740/)). | 2018 |
| [Diligent Robotics](http://diligentrobots.com/) | Create collaborative robots that can learn from humans and have social intelligence, mobile manipulation, and human-guided learning capabilities. Moxi, a hospital robot assistant that assists clinical employees with administrative work, is the company's first product. The robot uses machine learning for object recognition and grasping, as well as navigation software based on ROS [^109]. | 2017 |
| [DIMAAG-AI](https://dimaag-ai.com/) | Help businesses deploy self-healing AI solutions to transform the way they operate to improve efficiency, quality, and revenue. Hiring ROS engineers ([Autonomous vehicle software engineering lead](https://delivers.ai/jobs.html)). | 2018 |
| [DJI](enterprise.dji.com/) | Create and produce drone and camera technology for both professional and leisure use. Their aerial and camera stabilization devices completely alter how cameras are placed and moved. ROS packages for DJI onboard SDK (see [`Onboard-SDK-ROS`](https://github.com/dji-sdk/Onboard-SDK-ROS))[^108]. | 2006 |
| [Doosan](https://www.doosan.com/en) | Build power plants and industrial facilities, machine tools and automation systems, engines, bridges and construction equipment. ROS Drivers for communicating with Doosan robots (see [`doosan-robotics`](https://github.com/doosan-robotics)). | 2012 |
| [Dorabot](https://www.dorabot.com/) | Utilize cutting-edge robotics and AI, such as computer vision, motion planning, mobility, and deep learning, to create automated warehouse solutions. ROS drivers (see [`dorabot`](https://github.com/dorabot)). | 2015 |
| [Draper](http://www.draper.com) | Defense and Space Manufacturing R&D company. Using ROS in their engineering efforts[^239] | 1932 |
| [DreamVu](http://www.dreamvu.com) | Develop omni-stereo camera hardware and software platform for unifying human and machine vision. This unoffical package creates a ros2 node which publishes the panoramic images and a point cloud from the DreamVU PAL camera (see [`ros2_pal_camera_node`](https://github.com/physar/ros2_pal_camera_node)). | 2017 |
| [DroneDeploy](https://www.dronedeploy.com/) | Provider of cloud-control software solutions for drones which include automated flight safety checks, workflows, and real-time mapping and data processing. Support ROS robots that use MAVlink [^107]. | 2013 |
| [dSPACE](http://www.dspace.com/) | Provider of hardware and software tools for developing and testing sophisticated electronic control systems. Connecting dSPACE real-time systems to the [Robot Operating System (ROS)](https://www.dspace.com/en/inc/home/products/sw/impsw/dspace_interface_blockset_ros.cfm). | 1988 |
| [Ducktrain](https://ducktrain.io/) | Provide vehicle platforms and automation technology. Using ROS in their robotics engineering activities[Senior Software Engineer](https://www.linkedin.com/in/nickfiege/?originalSubdomain=de). | 2018 |
| [Dyno Robotics](http://www.dynorobotics.se) | Develop custom robotics and AI solutions. Doing everything from natural language processing and outdoor navigation, to hardware construction and electronics. They have many [ROS](https://dynorobotics.se/ros/) projects under their belts, and have even created a popular ROS2 Unity integration. | 2018 |
| [E-COBOT](https://www.e-cobot.com) | Specialize in cobotics and artificial intelligence​ solution. They design, manufacture and integrate on specification. | 2016 |
| [Easy Robotics](https://easyrobotics.biz/) | Manufacturer and provider of robotic solutions. Their ER200 robot is built out of MiR and UR robots, which are ROS-related. | 2015 |
| [EasyMile](http://www.easymile.com) | Provide software powering autonomous vehicles and smart mobility solutions. The [software](https://www.easymile.com/technology/how-it-works) for driverless solutions processes data fed by any platform’s sensor set, analyzes it, and teaches the vehicle how it is supposed to perform. ROS drivers fo EasyMile (see [`EasyMile`](https://github.com/EasyMile)). | 2014 |
| [Easymov Robotics](http://www.easymov.fr) | Specialized in conception of software and electronics for robotics. Easymov develop solutions to make R&D industrial engineers, robotics researchers and robot builders work easier and help them accelerate their workflow. Sponsor of the [ROScon](https://roscon.ros.org/fr/2019/) 2019. ROSCon is a developers conference [^168]. | 2015 |
| [eBots](http://www.ebots.com) | Electronic or computerized robots designed to perform specific tasks, often in industries such as manufacturing, healthcare, and logistics. Hiring ROS engineers ([Senior Robotics Engineer - Motion Planning](https://jobs.lever.co/eBots/3ba1a2ec-b29f-407e-ba51-1331a6a17886)). | 2017 |
| [EikonTech](http://www.eikontech.it) | Provider of engineering services intended to solve challenges in the field of electromagnetics. The company's services use machine vision and deep learning algorithms in the strategifc domains to analyze large amounts of heterogeneous data collected through different sensors and provide insights to decision-makers. A set of plugins for publishing and subscribing to sensor_msgs/Image topics in representations other than raw pixel data for EikonTech (see [`eikontech/image_transport_plugins`](https://github.com/eikontech/image_transport_plugins)). | 2009 |
| [Ekobot](https://www.ekobot.se/) | Offer precision agriculture solutions based on artificial intelligence and autonomous mobile robot platforms. Hiring engineers with experience in ROS ([DevOps Engineer](https://discourse.ros.org/t/devops-engineer-ekobot-sweden/22640)). | 2017 |
| [Ekumen](https://www.ekumenlabs.com/) | Specializes in providing software, mobile app development, embedded systems, and robotics solutions. ROS drivers (see [`ekumenlabs`](https://github.com/ekumenlabs)).| 2012 |
| [Elephant Robotics](https://www.elephantrobotics.com/en/) | Design and production of robotics, development and applications of operating system and intelligent manufacturing services in industry, commerce, education, scientific research, home and etc. myCobot ROS2 package (see [`mycobot_ros2`](https://github.com/elephantrobotics/mycobot_ros2)). | 2016 |
| [Elroy Air](http://elroyair.com) | Aerospace company that specializes in autonomous vertical takeoff and landing (VTOL) cargo drones. Hiring ROS engineers ([Software Engineer](https://startup.jobs/software-engineer-robotics-systems-elroy-air-3001732)). | 2016 |
| [Embark Trucks](http://embarktrucks.com/) | Develop self-driving truck [technology](https://embarktrucks.com/technology/) designed for freight and logistic services. ROS drivers (see [`embarktrucks`](https://github.com/embarktrucks)). | 2016 |
| [embotech](http://www.embotech.com/) | Make software for autonomous driving systems for private grounds and smart factories. Hiring engineers with experience in ROS ([Software developer](https://www.embotech.com/wp-content/uploads/Robotics_Software_Internship_Job_Ad_March2020.pdf)). | 2013 |
| [Emesent](http://www.emesent.com/) | Develope drone technology designed for the collection and analysis of critical data. The company's platform helps in LiDAR-mapping and autonomy payload which provides a complete service for the inspection and mapping of underground assets. Hiring engineers with experience in ROS ([Software and Embedded Systems Engineers](https://discourse.ros.org/t/software-and-embedded-systems-engineers-emesent-australia/25938)). | 2918 |
| [Emlid](https://emlid.com/) | Develop GNSS receivers suitable for land surveying, mapping, and navigation. General scheme of [ROS](https://docs.emlid.com/navio2/ros/) incorporated in Emlid Raspbian. | 2014 |
| [Enabled Robotics](https://www.enabled-robotics.com/) | Specializes in mobile manipulator robots that integrate mobile robots with robotic arms. The [ER-FLEX](https://www.enabled-robotics.com/erflex) is a collaborative mobile manipulator that comes with full [ROS](https://www.enabled-robotics.com/research) documentation. | 2016 |
| [Energid](https://www.energid.com) | Solve robotics challenges by offering software, products, and service. Robotics software simulates and regulates kinematics and dynamics for many kinds of robotics applications, and its 3D machine vision software allows autonomy. ROS plugins and applications for use with a ROS enabled Energid Actin SDK (see [`ActinROS`](https://github.com/Energid/ActinROS))[^106]. | 2001 |
| [Enova Robotics](https://www.enovarobotics.eu/) | Is a company specialized in mobile robot development and robotics R&D projects. The code running [Mini Lab](https://www.enovarobotics.eu/other-products/) was based on the [Robotics Operating System (ROS)](https://emtechmena.com/enova-robotics-tunisian-robots-global-demand/). | 2014 |
| [Enstein™ Robots & Automations Pvt Ltd](http://www.enstein.in/) | Provide industrial solutions by designing and manufacturing industrial robots. Hiring ROS engineers ([R&D Robotics ROS Developer](https://www.linkedin.com/jobs/view/3774196027)). | 2019 |
| [ENWAY](http://www.enway.ai) | Build the software platform to turn manual utility machines into autonomous utility machines. opencv_apps provides various nodes that run internally OpenCV's functionalities and publish the result as ROS topics for ENWAY (see [`enwaytech/opencv_apps`](https://github.com/enwaytech/opencv_apps)). | 2017 |
| [eProsima](https://www.eprosima.com/) | Provides insight to develop distributed systems recommending the right DDS middleware products and supporting in all the stages of the development. ROS drivers for eProsima middleware (see [`eProsima`](https://github.com/eProsima))[^105]. | 2005 |
| [Ericsson](https://www.ericsson.com/en) | Provide a range of products and services for the telecoms industry, including network equipment, software, and professional services. The company use robots in its research and development division or in its manufacturing processes.. The ROS Middleware (rmw) Interface(see [`ros2-rmw`](https://github.com/Ericsson/ros2-rmw)). | 1876 |
| [Erthos](https://www.erthos.com/) | Solar power deployment platform. Behind “ErthBot” autonomous robot which cruises over and cleans the solar panels in our solar fields. Hiring ROS engineers ([Senior Software Engineer](https://discourse.ros.org/t/pre-ipo-solar-energy-company-erthos-seeking-senior-software-engineer-c-python-ros/26224)). | 2019 |
| [eSOL](http://www.esol.com) | Is a company in the fields of embedded systems and Industrial IoT that seeks to create a safer and better connected society using its innovative computer technologies. Sponsor of the [ROScon](https://roscon.ros.org/2022/). | 1975 |
| [Eternal Robotics](https://eternalrobotics.com/) | Provide robotics engineering, optimization, software, and product development services. Hiring ROS engineers ([Embedded Firmware Engineer](https://eternalrobotics.com/portfolio/firmware-engineer/)). | 2019 |
| [Eurogroep](http://www.eurogroep.com) | Industrial corporation devoted to the development, production, and sales of high-tech industrial equipment. Hiring ROS engineers ([ROS Programmeur](https://www.eurogroep.com/jobs/rosprogrammeur)). | 2005 |
| [EVAR](https://www.evar.co.kr/) | Develope autonomous EV recharging robot. Algorithm-agnostic computer vision message types for ROS for EVAR (see [`EvarClab/vision_msgs`](https://github.com/EvarClab/vision_msgs)). | 2016 |
| [Evitado Technologies](https://evitado.io/) | Develop temporarily installable collision avoidance systems using the industries latest sensor technologies. Hiring ROS engineers ([Software Engineer](https://evitado.io/careers/)). | 2019 |
| [Evocargo](http://www.evocargo.com/) | A zero-emissions cargo transportation service in supervised areas. Self-driving vehicles and advanced robotics technologies for efficient logistics. ROS drivers for Evocargo (see [`Evocargo`](https://github.com/Evocargo/ros-bag-migration)). | 2020 |
| [Exobotic Technologies](http://www.exobotic.com/) | Develop state-of-the-art autonomous robots for the most challenging applications. Hiring engineers with experience in ROS ([Robotics Software Engineer](https://discourse.ros.org/t/exobotic-technologies-belgium-is-hiring-a-robotics-software-engineer/22888)). | 2014 |
| [Expleo Group](https://expleo.com/global/en/) | A global engineering, technology and consulting service provider that partners with leading organisations to guide them through their business transformation, helping them achieve operational excellence and future-proof their businesses. Hiring ROS talent [^292]. | 1966 |
| [Eyeware](https://eyeware.tech) | Is an tech provider of eye tracking solutions for webcams and 3D cameras. Eyeware ROS utilities for 3D eye tracking (see [`eyeware-ros`](https://github.com/eyeware/eyeware-ros)). | 2016 |
| [eYs3D Microelectronics, Co.](https://www.eys3d.com/) | Is a silicon-centric and AI-enabling solutions provider specializing in computer vision and 3D sensor fusion processing for applications such as robotics and VR/AR systems. Sponsor of the [ROScon](https://roscon.ros.org/2022/). | 2016 |
| [e-con Systems](https://www.e-consystems.com) | Provide end-to-end camera solutions for applications including Autonomous Mobile Robots (AMRs), autonomous shopping, Point of Care (PoC) devices, smart traffic, autonomous agriculture & smart farming, sports broadcasting & analytics, life sciences, and more. ros2 vision_opencv contains packages to interface ROS 2 with OpenCV for e-con Systems (see [`econsystems/vision_opencv`](https://github.com/econsystems/vision_opencv)). | 2003 |
| [E-TERRY](https://e-terry.de/) | Develop small-scale agricultural machinery. Hiring ROS engineers ([Software Engineer](https://e-terry.de/vacancies/)). | 2022 |
| [ez-Wheel](https://ez-wheel.com) | The [SWD® StarterKit](https://ez-wheel.com/en/development-kit-for-agv-and-amr/) is a robot devlopment kit using SWD® drives. It tackles AGVs and AMRs industrial applications, providing a unique solution for safety requirements related to the ISO 3691-4 standard. [ROS and ROS2 diffential driver](https://github.com/ezWheelSAS) are available. | 2009 |
| [F&P Robotics](http://www.fp-robotics.com) | Develop humanoid robots for personal and professional use. [ROS-Package](https://www.fp-robotics.com/en/2016/12/ros-package-for-p-rob/) for P-Rob. | 2014 |
| [Fairmat](https://www.fairmat.tech/) | Bring a way to recycle carbon fiber composite. Use robotics to automate recycling processes. Hiring engineers with experience in ROS ([Vision Robotics R&D Engineer](https://www.linkedin.com/jobs/view/ing%C3%A9nieur%C2%B7e-r-d-robotique-vision-h-f-at-fairmat-3496425966/)). | 2020 |
| [FarmWise](http://farmwiselabs.com) | Provide technology-based services that allow farmers to streamline farm operations and increase food production efficiency. Code for working with images in ROS (see [`image_common`](https://github.com/FarmWise/image_common)). | 2016 |
| [FastLogic](http://www.fastlogic.pl) | Provide technology and software solutions. ROS used for industrial use cases. Participation in ROS-Industrial Conference 2022. | 2012 |
| [FastSense](http://www.fastsense.tech) | Develop autonomus navigation solutions for in-door drones and wheeled robots and applied AI algorithms for data processing. ROS drivers for FastSense (see [`FastSense`](https://github.com/FastSense)). | 2017 |
| [Fieldwork Robotics](https://fieldworkrobotics.com/) | Develop selective, adaptive and modular harvesting robots operating in non-controllable agricultural environments. Hiring engineers with experience in ROS ([Field Deployment Robotics Engineer](https://www.linkedin.com/jobs/view/field-deployment-robotics-engineer-at-fieldwork-robotics-ltd-3527549034/?originalSubdomain=pt)). | 2016 |
| [Filics](http://www.filics.eu) | Develop autonomous mobile robots by reducing current solutions to a minimum. Their platform provides a simple, flexible and fast solution to automate all ground-based intra-logistics processes. ROS drivers for Filics (see [`FutureInLogistics`](https://github.com/FutureInLogistics)). | 2016 |
| [FireFly Automatix](https://fireflyautomatix.com) | Develop advanced robotics and automation solutions for industrial and commercial applications. They offer a wide range of services, including design and engineering, software development, system integration, and testing and validation. Their products and solutions are used in industries such as manufacturing, logistics, and agriculture. Hiring ROS engineers ([Robotics Software Engineer](https://www.wayup.com/i-j-FireFly-Automatix-405919514093302/)). | 2010 |
| [Fixposition](https://www.fixposition.com/) | Offer precise and compact positioning sensors for autonomous guidance systems. ROS2 drivers for Fixposition (see [`fixposition`](https://github.com/fixposition)). | 2017 |
| [Fixstars Corporation](https://www.fixstars.com/en) | Provide solutions that harness the high computing performance of multi-core technology. Sponsor of the [ROScon](https://roscon.ros.org/jp/2019/) JP 2019. ROSCon is a developers conference [^166]. | 2002 |
| [Fizyr](http://www.fizyr.com) | Design vision software product for automated picking and stacking items, parcels, depalletizing, and trailer unloading. PCL (Point Cloud Library) ROS interface stack for Fizyr (see [`fizyr-forks/perception_pcl`](https://github.com/fizyr-forks/perception_pcl)). | 2014 |
| [Flanders Make](http://www.flandersmake.be) | Work with companies and organizations in various industries, including automotive, aerospace, and medical devices, to help them incorporate innovative technologies and processes into their manufacturing operations. They offer proof-of-concept demonstrators, they allow to gauge feasibility, validate the cost-benefit analysis and ensure technology acceptance. For this, they use various unique software and hardware tools in this process like [ROS](https://www.flandersmake.be/en/research/services/human-robot-collaboration). | 2014 |
| [Flexiv](https://www.flexiv.com) | Building collaborative robotic arms with AI capabilities. So called adaptive robots. Uses ROS for development, offers ROS 2 drivers for their robot arm[^280] and commits to supporting ROS 2 full integration. | 2016 |
| [FloMobility](https://flomobility.com) | Flo Mobility is a vision-based autonomy technology company based out of Bangalore using ROS. It makes autonomy hardware and software with a sensor suite that can be retrofitted with any vehicle and equipment to make them autonomous. [FloEdge One](https://edge.flomobility.com/) is compatible with [ROS 2](https://edge.flomobility.com/faq/). Hiring ROS engineers ([Robotics Intern](https://www.linkedin.com/jobs/view/3439699021/?refId=UL%2BtF7fQSoGc5y9WHl6gLg%3D%3D&trackingId=UL%2BtF7fQSoGc5y9WHl6gLg%3D%3D)). | 2019 |
| [Flux Auto](https://fluxauto.xyz/) | Develop a software framework that allows developers to build self-driving cars. Hiring ROS engineers ([Control System Engineer](https://cutshort.io/job/Control-System-Engineer-Bengaluru-Bangalore-Flux-Auto-kC1ZJTCb)). | 2017 |
| [FlytBase](http://flytbase.com) | Provide unmanned aerial vehicle (UAV) or drone software solutions. Their offerings include a drone operating system, cloud-based fleet management, and a drone app marketplace. FlytOS is built on [ROS](https://flytbase.com/flytos/) (Robot Operating System) and Linux, making it an ideal platform for robust and scalable drone applications. | 2017 |
| [Formant](https://formant.io//) | Provide the analytics platform, which presents application data in a single Web-based user interface. Formant’s [cloud](https://formant.io/product/) software enables organizations to monitor robot fleets in real time [^84]. ROS package contains examples for integrating with the Formant agent in a ROS context (see [`formant-ros`](https://github.com/FormantIO/formant-ros)). | 2017 |
| [Forssea Robotics](http://www.forssea-robotics.fr) | Develop autonomous underwater robots (AUVs) for various applications, such as environmental monitoring, ocean exploration, and oil and gas inspection. ROS Drivers for Forssea Robotics (see [`forssea-robotics`](https://github.com/forssea-robotics)). | 2016 |
| [Fortem Technologies](http://www.fortemtech.com) | Provide real-time intrusion detection and detect-and-avoid solutions. Hiring ROS engineers ([UAV Systems Integration Engineer](https://portal.zoniac.com/jsp/careers/jobInformationDetails.jsp?publishToEditPage=1&jobId=529402&loginEmployeeId=0&companyId=1802&enableApply=Yes&fromApi=0)). | 2016 |
| [Foxglove](https://foxglove.dev/studio) | Open source robotics visualization and debugging tool that combines a list of ROS tools (see [`foxglove`](https://github.com/foxglove)).| 2021 |
| [Franka Emika](http://www.franka.de) | Develop advanced robotic systems for industrial and commercial applications. They are known for their lightweight collaborative robots, or cobots, which are designed to work alongside humans in a wide range of industries, including manufacturing, healthcare, and logistics. ROS drivers for Franka Emika (see [`frankaemika`](https://github.com/frankaemika)). | 2016 |
| [Fyusion](http://fyusion.com/) | Develop products powered by 3D computer vision and machine learning. Hiring engineers with experience in ROS ([Software Systems Engineer](https://discourse.ros.org/t/software-systems-engineer/22468)). | 2014 |
| [Gaia Platform](https://www.gaiaplatform.io/) | Create a platform for developing applications for Autonomous Machines. You can integrate multiple system components in a common setting, from machine learning functions to ROS-enabled actuator. And can run it all without the need for constant cloud connectivity. ROS drivers (see [`gaia-platform`](https://github.com/gaia-platform)).| 2017 |
| [Gaitech Robotics](https://www.gaitech.com/) | Integrating, distributing, manufacturing and supporting robotics products based on ROS. Promotion and education of ROS in Asia. Working in a Robot Nervous System for robotics research , education and product development within ROS Framework. ROS packages (see [`gaitech-robotics`](https://github.com/gaitech-robotics))[^103].| 2004 |
| [Gatik](http://www.gatik.ai) | Develop technology for autonomous light & medium duty trucks for B2B short-haul logistics. It specializes in the fields of artificial intelligence, automotive, and logistics. ROS communications-related packages (see [`ros_comm`](https://github.com/StarskyRobotics/ros_comm)). | 2017 |
| [GE](http://www.ge.com) | Industrial machinery manufacturing company. Hiring engineers with experience in ROS ([Lead Engineer - Autonomous Systems - Aerospace Research](https://www.linkedin.com/jobs/view/3533778141/?alternateChannel=search&refId=EYJR%2BPifQQW5TzWDJuKqPg%3D%3D&trackingId=8qZGnrcjBVosew643yGhJw%3D%3D&trk=d_flagship3_search_srp_jobs)). | 1892 |
| [Gecko Robotics](https://www.geckorobotics.com/) | Creates *Gecko* climbing robot which collects and makes useful physical data to protect critical infrastructure. Hiring engineers with experience in ROS ([Robotics Localization Engineer](https://www.ycombinator.com/companies/gecko-robotics/jobs/w3XAzwe-robotics-localization-engineer)). | 2013 |
| [Geek+](https://www.geekplus.com/) | Develop autonomous mobile robots for warehouse, factory, and supply chain management. Hiring engineers with experience in ROS ([Senoir System Engineer](https://discourse.ros.org/t/senoir-system-engineer/23263)). | 2015 |
| [Genrobotics](https://www.genrobotics.org) | Specialized in the design and development of robotic solutions. Combines the use of robotics and artificial intelligence. Hiring ROS engineers ([Robotic Software Engineer(ROS)](https://ksycjobs.kerala.gov.in/users/job_details/NDA1ODNfMg==)). | 2017 |
| [Gestalt Robotics](http://www.gestalt-robotics.com) | Software and solution provider working at the interface of industrial automation and artificial intelligence. Their cloud navigation is based on microservice architectures. They support modern microservice architectures and network them using standardized interfaces, efficient data management, and real-time optimization. They support, among other things, OPC UA, [ROS](https://www.gestalt-robotics.com/en/home), [ROS2](https://www.gestalt-robotics.com/en/home), Time Sensitive Networking, and Fieldbus systems. | 2016 |
| [Gideon](https://www.gideon.ai/) | Autonomous mobile robots that automate manual material-handling jobs in manufacturing, logistics, warehousing, and retail. Using ROS for general engineering and navigation aspects[^242]. Company worker works as a [ROS developer](https://www.linkedin.com/in/pevec-luka/). | 2017 |
| [GIM Robotics](http://gimrobotics.fi/) | Deliver software that makes mobile working machines in all industries more intelligent, precise and efficient. Compatible with several supported interfaces such as: [ROS](https://gimrobotics.fi/offering/localisation/), ROS2, VDA5050 and Fleet Management Systems. | 2014 |
| [GITAI](http://gitai.tech/) | Develop humanoid robots for use in space. The goal is to create robots that can perform tasks that are too dangerous, difficult, or time-consuming for human astronauts to perform in space. Hiring ROS engineers ([Robotics Software Engineer](https://gitai.tech/jobs/robotics-software-engineer/)). | 2016 |
| [Glarus Technology](http://glarustech.com/) | Specialize in web, mobile, embedded, IoT, robotics, drone and automotive solutions. Hiring ROS engineers ([SENIOR ROBOTICS ENGINEER](http://glarustech.com/careers.html)). | 2018 |
| [Glidewell Laboratories](https://glidewelldental.com/) | Manufacture dental implants and tooth replacement systems. The company is [currently member](https://rosindustrial.org/current-members) of ROS-Industrial, is an open-source project that extends the advanced capabilities of ROS to manufacturing automation and robotics (see [`ros-industrial`](https://github.com/ros-industrial))[^138]. | 1970 |
| [Globotix](https://globotix.sg/) | Facilities management robotics solution focused on delivering customised solutions tailored to the needs of clients. Its unique modular system allows for multiple functionality to be integrated into the same base system whilst providing flexibility for the client to choose the best suite of tools suited to their requirements. Hiring engineers with experience in ROS ([ROBOTICS SOFTWARE ENGINEER](https://www.mycareersfuture.gov.sg/job/engineering/robotics-software-engineer-globotix-9ae3b549f2f3000c9cdcee3a0af25fe2)). | 2016 |
| [Gofore](http://www.gofore.com) | Provide software development, design, and consulting services to clients. It focuses on cloud, data analytics, and user experience design services. ROS used for industrial use cases. Participation in ROS-Industrial Conference 2022. | 2001 |
| [Gravis Robotics](https://gravisrobotics.com/) | Develop autonomy for heavy machinery to automate an industry with a slowly rising productivity. Hiring engineers with experience in ROS ([Field Engineer](https://discourse.ros.org/t/field-engineer-at-gravis-robotics-zurich-switzerland-robotics-heavy-construction-machines/34917)). | 2022 |
| [GrayMatter Robotics](https://www.graymatter-robotics.com/) | Develop robotic brains for industrial robots designed to allow them to transform into smart assistants for high-mix low-volume manufacturing applications. Hiring engineers with experience in ROS ([Field Application Engineer](https://boards.greenhouse.io/graymatterrobotics/jobs/4186323005)). | 2020 |
| [Greenroom Robotics](https://www.greenroomrobotics.com/) | Australian robotics company developing advanced maritime autonomy for vessels and AUVs as well as ROS-based perception pipelines for detecting, classifying, tracking and geolocating objects from land, sea or sky. ROS drivers for Greenroom Robotics (see [`Greenroom-Robotics`](https://github.com/Greenroom-Robotics)). | 2017 |
| [Greenzie](https://www.greenzie.com/) | Develops software for autonomous robotic lawn mowers. Its retrofit hardware kit and cloud-based software for commercial lawn mowers add self-driving to the existing equipment. ROS drivers for Greenzie software (see [`Greenzie`](https://github.com/Greenzie))[^102]. | 2018 |
| [GreyOrange](https://www.greyorange.com/) | Produces software and mobile robotics to modernize order fulfillment and optimize warehouse operations in real time. Their software runs on ROS[^199], and their robots are in their fourth or fifth generation. | 2012 |
| [Griffin](http://griffin.ethz.ch) | Develop a robot capable of gripping and manipulating objects in flight. ROS packages for the STOMP planner (see [`Griffin-Focus-Project/stomp_ros`](https://github.com/Griffin-Focus-Project/stomp_ros)). | 2020 |
| [GROOVE X](http://www.groove-x.com/) | Develop household robot that inspires real affection. Sponsor of the [ROScon](https://roscon.ros.org/jp/2018/) JP 2018. ROSCon is a developers conference [^170]. | 2015 |
| [GurumNetworks](https://gurum.cc/sol_robotics_eng) | Specializes in network solutions for data distribution service protocol software. [GurumDDS](https://gurum.cc/gurumdds_eng) is a DDS that supports the [robot operating system (ROS2)](https://gurum.cc/sol_robotics_eng) and provides a GurumDDS Routing Service (RS) optimized for remote communication with the robot. | 2014 |
| [Halodi Robotics](https://www.halodi.com/) | Produce humanoid robots. Cracking the code and engineered a safe solution (named [EVE](https://www.halodi.com/ever3)). ROS drivers for Halodi Robotics (see [`Halodi`](https://github.com/Halodi)). | 2015 |
| [Han's Robot](https://www.hansrobot.net/index) | Manufacturing automation machinery based on ROS. ROS package for Han's Robot (see [`hans-robot`](https://github.com/hans-robot))[^100].| 2017 |
| [Harting](http://www.harting.com) | Electronic manufacturing company that specializes in the fields of electrical, electronic and optical connection, transmission and networking, as well as in manufacturing, mechatronics and software creation. The company is [currently member](https://rosindustrial.org/current-members) of ROS-Industrial, is an open-source project that extends the advanced capabilities of ROS to manufacturing automation and robotics (see [`ros-industrial`](https://github.com/ros-industrial))[^139]. | 1945 |
| [Hatchbed](https://hatchbed.com/) | Provide customized solutions and research and development for the dynamic global industries of self driving and autonomous vehicles, robotics, data analysis, AI and software systems. An image processing pipeline for ROS for Hatchbed (see [`hatchbed/image_pipeline`](https://github.com/hatchbed/image_pipeline)). | 2019 |
| [HAVELSAN](http://www.havelsan.com.tr) | Provide defense electronics, information technology, and simulation systems. It is mainly focused on the development of military software and systems, including simulation and training systems, air defense systems, command and control systems, and various software products. ROS used for industrial use cases. Participation in ROS-Industrial Conference 2022. | 1082 |
| [HEBI Robotics](http://www.hebirobotics.com) | Build intelligent and connected modular building blocks for creating robotic solutions. Offer ROS APIs[^186] as well ad documentation and examples[^187]. | 2014 |
| [Helgen Technologies](https://www.helgen.tech) | Develop advanced navigation and guidance systems for a variety of industries. They use the Nav2 Stack to create autonomous navigation solutions for unmanned aerial vehicles (UAVs), autonomous underwater vehicles (AUVs), and ground vehicles (see [`Helgen-Tech/navigation2`](https://github.com/Helgen-Tech/navigation2)). | 2021 |
| [Heliogen](https://heliogen.com/) | Heliogen’s modular solution is designed to replace the use of fossil fuels in demanding operations. By combining AI-controlled concentrating solar thermal technology with long-duration thermal energy storage, Heliogen can provide dispatchable renewable energy for heat and energy-intensive operations.. Hiring engineers with experience in ROS ([Software Engineer](https://pasadena-ca.geebo.com/jobs-online/view/id/1080713062-software-engineer-at-heliogen-/)). | 2013 |
| [HelloWorld Robotics](https://www.helloworldrobotics.xyz/) | Design and build an autonomous delivery network and infrastructure to provide a smarter, cheaper and safer last mile delivery solution. ROS drivers for HelloWorld Robotics (see [`HelloWorldRobotics`](https://github.com/HelloWorldRobotics)). | 2019 |
| [Hello Robot](https://hello-robot.com/) | Design robots that help people in their homes and workplaces, it features open-source software with both Python and ROS interfaces, extensible and customizable hardware. ROS2-related code for the Stretch RE1 mobile manipulator from Hello Robot Inc (see [`stretch_ros2`](https://github.com/hello-robot/stretch_ros2))[^99]. | 2017 |
| [HERACLES Robotics](https://www.heracles-robotics.com/en) | Develop a navigation and autonomous system adapted to existing equipment to carry out earthmoving operations without a machine operator. Hiring ROS engineers ([engineers](https://www.linkedin.com/jobs/view/contr%C3%B4le-robotique-autonome-avec-apprentissage-par-renforcement-profond-at-heracles-robotics-3377947628/?originalSubdomain=fr)). | 2019 |
| [HERE Technologies](http://here.com) | Provide mapping and location-based services to businesses and individuals through its cloud-based platform. HERE Technologies' services include maps and location data, real-time traffic information, indoor and outdoor positioning, and location-based advertising. Company worker works as a [ROS developer](https://www.linkedin.com/in/kevin-qi-l-9abbb55/?trk=public_profile_browsemap). | 1985 |
| [Hesai Technology](http://www.hesaitech.com/en) | Design [laser sensors](https://www.hesaitech.com/en/AT128) for robots and self-driving cars. ROS drivers for Hesai Technology sensors (see [`HesaiTechnology`](https://github.com/HesaiTechnology)). | 2014 |
| [Hexagon's Autonomy & Positioning division](https://hexagon.com) | Global leader in software and hardware solutions. Their Positioning Intelligence division (Hexagon PI) acquired AutonomousStuff[^264] and leverages ROS in their automotive solutions. Hiring engineers with experience in ROS ([Autonomy Field Applications Engineer](https://www.linkedin.com/jobs/view/3328074287/?alternateChannel=search&refId=4xMUNZ1e0oVTxklhNaDLJA%3D%3D&trackingId=Plqkxp66PdCsTlQlKIcrKw%3D%3D&trk=d_flagship3_search_srp_jobs)). | 1992 |
| [Hippo Harvest](https://www.hippoharvest.com/) | A controlled environment agriculture (CEA) company that leverages plant science, machine learning and robotics to sustainably grow vegetables in greenhouse environments. Seeking for ROS roboticists to design, implement, deploy, and maintain software/systems for all things related to robotics/automation at their 150,000 square foot greenhouse in Pescadero, CA [^268] | 2019 |
| [Hiwonder](https://www.hiwonder.hk/) | Produce educational robotics kits for children and hobbyists. Hiwonder JetHexa [ROS](https://hiwonder.hk/products/hiwonder-jethexa-ros-hexapod-robot-kit-powered-by-jetson-nano-with-lidar-depth-camera-support-slam-mapping-and-navigation?variant=39876752638039) Hexapod Robot Kit, powered by NVIDIA Jetson Nano and based on ROS. | 2015 |
| [Hokuyo Automatic](http://www.hokuyo-aut.jp) | Is a developer of optical data transmission devices, photo sensors, auto counters, and automatic doors. A ROS node to provide access to SCIP 2.0-compliant Hokuyo laser range finders (see [`hokuyo_node`](https://github.com/ros-drivers/hokuyo_node)). A driver for [Hokuyo 2D range sensors (LiDAR)](https://www.hokuyo-aut.jp/topics/detail.php?id=66) that works with [ROS2](https://github.com/UrgNetwork/urg_node2). | 1946 |
| [Honda Research Institute](https://usa.honda-ri.com/) | Research in Artificial Intelligence and intelligent systems. Sponsor of the [ROScon](https://roscon.ros.org/jp/2018/) JP 2018. ROSCon is a developers conference [^170]. | 2003 |
| [Honeybee Robotics](https://www.honeybeerobotics.com/) | Develop robotics systems for the space industry, includingactuators, drills, and sample collection systems for several Mars missions. ROS packages for interfacing with a NASA cFS system (see [`roscfs`](https://github.com/honeybee-robotics/roscfs))[^98]. | 1983 |
| [Honeywell](https://www.honeywell.com/) | Offer energy, safety, and security solutions and technologies. The company does have a presence in the robotics industry through its products and solutions for various applications. Drivers for Honeywell IMU (see [`hg_node`](http://wiki.ros.org/hg_node)). | 1906 |
| [HOPE Technik](https://www.hopetechnik.com/) | Deliver high performance engineering solutions. From creating a laparoscopic robot the size of a fingernail, to having autonomous robots run in global manufacturing plants. Hiring ROS engineers ([Software Engineer (Robotics)](https://nodeflair.com/jobs/hope-technik-software-engineer-robotics-49145)). | 2006 |
| [Hstar Technologies](http://hstar.ishopworld.com/) | Specialize in design, development and commercialization of technology-based solutions that incorporate medical robotics and biomedical engineering. Hiring engineers with experience in ROS ([Robotics Application Software Engineer](https://jobs.smartrecruiters.com/HstarTechnologies/84231240-robotics-application-software-engineer)). | 2007 |
| [Humatics](http://www.humatics.com) | Create precise location and navigation data in places where these capabilities do not exist today to support multiple use cases in manufacturing, transportation, robotics, surgical, and more.. ROS drivers for the Piksi RTK GPS module (see [`ethz_piksi_ros`](https://github.com/Humatics/ethz_piksi_ros)). | 2015 |
| [Husarion](https://husarion.com/#custom-robot) | A tech company which manufactures autonomous mobile robot platforms based on ROS & ROS 2 (see [`husarion`](https://github.com/husarion))[^97]. | 2013 |
| [Husarnet](https://husarnet.com/robotics.html) | Peer-to-peer VPN network dedicated for robots, autonomous vehicles and industry 4.0 applications. It provides secure data link between connected devices such as: robots, servers, laptops, cell phones, microcontrollers and more. ROS 2 and DDS Implementation [^96] | 2020 |
| [Hydromea](https://hydromea.com/) | Build a ecosystem of autonomous collaborating underwater drones to disrupt the submerged asset inspections in the offshore and onshore industries. Hiring engineers with experience in ROS ([Robotics Software Engineer](https://www.hydromea.com/jobs/robotics-software-engineer)). | 2014 |
| [Hyperspec AI](https://hyperspec.ai/) | Develop advanced driver assistance systems vision technology designed with real-time maps for scalable autonomy. Hiring engineers with experience in ROS ([ROS Developer Intern](https://www.linkedin.com/jobs/view/3724454141)). | 2019 |
| [Hyundai](https://www.hyundai.com/eu.html) | Automotive manufacturer with various vehicle lineups, brand vision, and global campaigns. ROS packages for Hyundai (see [`HYUNDAI-Robotics-Autonomous-Engineering`](https://github.com/HYUNDAI-Robotics-Autonomous-Engineering)). | 2000 |
| [IAV](https://www.iav.com/en/) | Develop computer app systems for the automotive industry. The company is [currently member](https://rosindustrial.org/current-members) of ROS-Industrial, is an open-source project that extends the advanced capabilities of ROS to manufacturing automation and robotics (see [`ros-industrial`](https://github.com/ros-industrial))[^140]. | 1983 |
| [IBRobotics (Intelligent Behavior Robots)](http://www.ibrobotics.com) | With a focus on utilizing technologies such as [ROS/ROS2](http://www.ibrobotics.com/), C++, and Python, IBRobotics offers comprehensive solutions for clients looking to develop cutting-edge robotics systems. | 2020 |
| [iFollow](https://www.ifollow.fr/) | Develop collaborative autonomous robots for the logistics industry and the retail industry. ROS Perception package (depthimage_to_laserscan) that converts a depth image to a laser scan for use with navigation and localization for iFollow (see [`ifollow-robotics/depthimage_to_laserscan`](https://github.com/ifollow-robotics/depthimage_to_laserscan)). | 2017 |
| [Ignitarium](http://www.ignitarium.com) | Silicon and embedded systems solution provider offering cutting-edge engineering solutions in IC design, system design, embedded software, multimedia, AI, mobility software and application development. The company has [integration services](https://ignitarium.com/software/robotics/) experience in ROS, ROS 2 and Autoware. Rapid robot prototyping with ROS, [Webinar recording](https://ignitarium.com/rapid-robot-prototyping-with-ros-webinar-recording/). | 2012 |
| [IKNOWHOW SA](http://www.Iknowhow.com) | Provide software and services for the finance and insurance industries. Company worker works as a [ROS developer](https://www.linkedin.com/in/michalis-d-logothetis/?originalSubdomain=gr). Hiring engineers with experience in ROS ([Robotics Engineer](https://startup.jobs/robotics-engineer-ikh-2366220)). | 2004 |
| [Imandra](https://www.imandra.ai/) | Specializes in cloud-scale automated reasoning. Its platform is designed to deliver governance to algorithms[^116]. Imandra ROS (see [`imandra-ros`](https://github.com/imandra-ai/imandra-ros)). | 2014 |
| [inaho](https://en.inaho.co/) | Develop products and solutions that allow labour-saving and efficiency improvement in agriculture. Algorithm-agnostic computer vision message types for ROS for inaho (see [`teaminaho/vision_msgs`](https://github.com/teaminaho/vision_msgs)). | 2021 |
| [incubed IT](http://www.incubedIT.com) | Offer software solutions to operate autonomous, self-navigating[^82], and co-operative mobile shuttles. ROS2 Navigation Framework and System (see [`navigation2`](https://github.com/incubedIT/navigation2)). | 2011 |
| [Indoor Robotics](https://www.indoor-robotics.com/) | State-of-the-art automated security robot that combines the accuracy of sensors, visibility of cameras, the flexibility of drones, and mobility of humans. Hiring engineers with experience in ROS ([Senior Fullstack Engineer](https://www.indoor-robotics.com/careers/co/indoor-robotics/7E.634/senior-fullstack-engineer/all/)). | 2018 |
| [InDro Robotics](https://indrorobotics.ca/) | Market leader for ROS-guided autonomous remotely piloted aircraft systems and mobile robotics solutions. Their software documentation used includes information on Python3, the [Robotic Operating System](https://indro-robotics-documentation.readthedocs.io/en/main/) and Gazebo simulation tool. They included guides and tutorials on how to use these software. | 2014 |
| [Inertial Labs](http://www.inertiallabs.com) | Is supplies Inertial Navigation Systems, Orientation Systems, Motion Capture and Military Training Systems. ROS GNSS/INS driver for Inertial Labs positioning systems for the CARMA Platform (see [`inertiallabs_gnss_driver`](https://github.com/VT-ASIM-LAB/inertiallabs_gnss_driver))[^177]. | 2001 |
| [Inertial Sense](https://inertialsense.com) | Provide autonomy-as-a-service for robotics vehicles in outdoor applications. ROS node for InertialSense products (see [`inertial-sense-ros`](https://github.com/inertialsense/inertial-sense-ros))[^]. | 2013 |
| [Infineon](https://www.infineon.com/cms/en/) | Offer semiconductor solutions, microcontrollers, LED drivers, sensors and automotive and power management. The company is [currently member](https://rosindustrial.org/current-members) of ROS-Industrial, is an open-source project that extends the advanced capabilities of ROS to manufacturing automation and robotics (see [`ros-industrial`](https://github.com/ros-industrial))[^141]. | 1999 |
| [Innok Robotics](https://www.innok-robotics.de/en/) | Make robots that assist humans in their work. Their robots facilitate the work of their customers and take dangerous work. The Innok Robotics AMR platform offers robots[^31] for indoor and outdoor jobs. ROS driver for the Innok Heros robot plattform (see [`innok_heros_driver`](https://github.com/innokrobotics/innok_heros_driver)). | 2012 |
| [Innoviz Technologies](http://www.innoviz.tech) | Manufacture [LiDAR](https://innoviz.tech/applications) sensors and [perception software](https://innoviz.tech/perception-software) that enables the mass-production of autonomous vehicles. InnovizPRO control interface support ROS[^130] drivers. | 2016 |
| [InOrbit](https://www.inorbit.ai/) | Offer a secure, scalable, cloud-based robot management and analytics platform that enables robotics companies and their customers to develop, deploy and operate smart robots at global scale. ROS drivers for InOrbit (see [`inorbit-ai`](https://github.com/inorbit-ai)). An update to InOrbit's [ROS 2](https://www.inorbit.ai/ros-2-update) support | 2017 |
| [İnovasyon Mühendislik](https://www.inovasyonmuhendislik.com/en) | Company conducts R&D projects on indoor and outdoor positioning systems, intelligent vehicles, robotics and machine learning. The evarobot is a mobile robot platform. The evarobot software system is written entirely in ROS (see [`evarobot`](https://github.com/inomuh/evarobot)). | 2010 |
| [Intel](https://www.intel.com/content/www/us/en/homepage.html) | Silicon vendor. Create a robotics development environment for autonomous devices, which includes the ROS2 core as well as capability packages such as perception, planning, and control driver. Intel ROS Project to enable the object detection, 2D location, 3D location and tracking with GPU and Intel RealSense camera under ROS framework (see [`intel`](https://github.com/intel))[^95].| 1968 |
| [Intermodalics](http://www.intermodalics.eu) | Employs experts in the development of mathematical software and robotics. The business offers support for software for robot communication and control, artificial intelligence, and 2D and 3D machine vision. ROS drivers for Intermodalics (see [`Intermodalics`](https://github.com/Intermodalics)). | 2010 |
| [Intrinsic](https://intrinsic.ai/) | Robotics software and AI company at Alphabet (Google). Make industrial robotics accessible and usable for millions more businesses, entrepreneurs, and developers through AI and [ROS](https://www.therobotreport.com/intrinsic-acquires-ros-maker-open-source-robotics-corp/). | 2021 |
| [IR4 PTY LTD](http://www.ir4.com.au) | Provide technology solutions and consulting services to a variety of industries, including healthcare, financial services, and government. Hiring ROS engineers ([Robotics / Mechatronics Engineer](https://au.joblum.com/job/robotics-mechatronics-engineer/2486936)). | 2016 |
| [Iron Ox](https://ironox.com/) | Use robots and artificial intelligence to control plantations. With ROS interface they control LEDS, vision cameras and Cartographer, is a system that provides real-time simultaneous localization and mapping (SLAM) in 2D and 3D across multiple platforms and sensor configurations. ROS drivers for Iron Ox (see [`iron-ox`](https://github.com/iron-ox))[^93].| 2015 |
| [ISID](https://www.isid.co.jp/) | Is an IT service management company that provides private computer time-sharing service. Sponsor of the [ROScon](https://roscon.ros.org/jp/2019/) JP 2019. ROSCon is a developers conference [^166]. | 1975 |
| [Islington Robotica](https://www.islingtonrobotica.com/) | Build semi-autonomous machinery to serve the people and their industries Mission is to build beautiful and intuitive semi autonomous machinery to serve the people and their needs. We want to create harmony between humans and humanoid technology to create a world that works. Hiring ROS engineers ([ROS Developer](https://www.owcareers.com/ros-developer-jobs-in-islington-robotica-united-states/3031151)). | 2019 |
| [IVEX](http://www.ivex.ai) | Develop safety co-pilot for autonomous cars. The company offers a cloud-based [platform](https://www.ivex.ai/products/safety-analytics-platform) for developers to get information about their system. ROS drivers (see [`IVEX-AI`](https://github.com/IVEX-AI)). | 2018 |
| [iXblue](http://www.ixblue.com) | Offer advanced navigation, photonics and maritime autonomy solutions. ROS driver for iXblue inertial sensors supporting StdBin protocol (see [`ixblue_ins_stdbin_driver`](https://github.com/ixblue/ixblue_ins_stdbin_driver)). | 1998 |
| [i3D robotics](http://www.i3drobotics.com/) | Develop 3D stereo vision technology to be used in machine vision applications. ros2 vision_opencv contains packages to interface ROS 2 with OpenCV for i3D robotics (see [`i3drobotics/vision_opencv`](https://github.com/i3drobotics/vision_opencv)). | 2013 |
| [i-KINGTEC](https://ikingtec.com/) | Develop intelligent industrial drone and UAV systems. Hiring ROS engineers ([ROS R&D Engineer](https://ikingtec.com/en/recruit/)). | 2017 |
| [Jetbrain Robotics](https://jetbrain.ai) | Develop advanced robotic transportation solutions for multi speciality hospitals. Hiring ROS engineers ([Robot Software Developer](https://angel.co/company/jetbrain-robotics/jobs/1531460-robot-software-developer)). | 2018 |
| [John Deere](https://www.deere.com/en/index.html) | Manufacture agricultural, construction, and forestry machinery, diesel engines, drivetrains used in heavy equipment, and lawn care equipment. The company is [currently member](https://rosindustrial.org/current-members) of ROS-Industrial, is an open-source project that extends the advanced capabilities of ROS to manufacturing automation and robotics (see [`ros-industrial`](https://github.com/ros-industrial))[^142]. | 1837 |
| [Johnson & Johnson](https://www.jnj.com/) | Develop medical devices, pharmaceuticals and consumer packaged goods. The company is [currently member](https://rosindustrial.org/current-members) of ROS-Industrial, is an open-source project that extends the advanced capabilities of ROS to manufacturing automation and robotics (see [`ros-industrial`](https://github.com/ros-industrial))[^143]. | 1886 |
| [Jungheinrich PROFISHOP AG & Co. KG](http://www.jh-profishop.de/) | Provide material handling and warehouse technology solutions. The company offers a wide range of products, including forklifts, pallet trucks, stackers, and reach trucks, as well as automated storage and retrieval systems. ROS used for industrial use cases. Participation in ROS-Industrial Conference 2022. | 2006 |
| [Kamdhenu Robotics](https://kamdhenurobotics.com/) | Provide customized solutions for the development of ROS based robots. They offer robots, accessories related to robots that supports [ROS](https://kamdhenurobotics.com/shop/). | 2019 |
| [Kapernikov](http://www.kapernikov.com) | They apply data analytics and computer vision techniques to turn data streams into valuable information which in turn helps people or robots make the right decisions. A set of plugins for publishing and subscribing to sensor_msgs/Image topics in representations other than raw pixel data for Kapernikov (see [`Kapernikov/image_transport_plugins`](https://github.com/Kapernikov/image_transport_plugins)). | 2011 |
| [Karelics](https://karelics.fi) | Offer a construction site robot that is completely autonomous for site monitoring and many other applications. Hiring engineers with experience in ROS ([Robotics software developer](https://jakomo.fi/jobs/robotics-software-developer-karelics-oy-joensuu/)). Migrating Karelics Brain to [ROS 2](https://karelics.fi/the-challenges-of-migrating-karelics-brain-to-ros-2/). | 2019 |
| [KAWADA ROBOTICS CORPORATION](http://www.kawadarobot.co.jp/) | Develop humanoid robots that work with people. The highly workable [NEXTAGE](https://nextage.kawadarobot.co.jp/) hardware is now compatible with [ROS](https://www.kawadarobot.co.jp/en/products/). ROS-OpenRTM-based robot controller software for dual-armed robot Nextage (see [`rtmros_nextage`](https://github.com/tork-a/rtmros_nextage)). | 2013 |
| [Kawasaki](https://global.kawasaki.com) | The company produces a wide range of products, including motorcycles, trains, ships, aerospace equipment, and heavy machinery such as construction and mining equipment. In addition to these products, Kawasaki Heavy Industries is also involved in the production of power plants, robotics, and precision machinery. The company uses the ROS Manipulation stack (MoveIt) in the Duaro (see [`Kawasaki-Robotics/khi_robot`](https://github.com/Kawasaki-Robotics/khi_robot)). | 1896 |
| [KEBA Group](https://www.keba.com) | Work on new developments and industry solutions for industrial qutomation, banking and service automation and energy automation. Hiring engineers with experience in ROS ([Application Engineer](https://www.karriere.at/jobs/6696306)). Company worker works as a [ROS developer](https://www.linkedin.com/in/milica-todorovi%C4%87-376852233/?originalSubdomain=rs). [ROS](https://static1.squarespace.com/static/51df34b1e4b08840dcfd2841/t/5a3bb9ae0d9297c9cfb1d83d/1513863632419/19_Steffan.pdf)-I native robot controllers. | 1968 |
| [KEMARO AG](https://kemaro.ch/) | Produces autonomous mobile robots for industrial cleaning. Using ROS in their robotics engineering activities[Software Engineer](https://www.linkedin.com/in/linghao-zhang/?originalSubdomain=ch). | 2016 |
| [Keybotic](https://keybotic.com/) | Develop autonomous four-legged robots for monitoring, inspecting, and mapping of complex environments. Hiring ROS engineers ([Robot Navigation Engineer](https://discourse.ros.org/t/robot-navigation-engineer-keybotic-barcelona/28601)). | 2020 |
| [Kindred AI](https://www.kindred.ai/) | Robotics and artificial intelligence (AI) company that develops robots. Build an AI platformthat integrates vision, grasping and placement to create autonomous solutions for complex commercial problems. Hiring engineers with experience in ROS ([Intermediate Robotics Software Engineer](https://app.otta.com/jobs/Z0QxL2dx)). | 2014 |
| [Kingdom Technologies](https://www.kingdom.garden/) | Develop robotic lawn mowers for large terrains. Hiring ROS engineers ([Robotics Software Engineer](https://discourse.ros.org/t/kingdom-technologies-are-hiring-a-robotics-software-engineer-in-glasgows-west-end/24526)). | 2018 |
| [Kinova Robotics](https://assistive.kinovarobotics.com/) | Design and manufacture robotics platforms and components that empowers people with disabilities to push beyond their current limitations. ROS packages for Jaco2[^33] and Mico robotic arms (see [`kinova-ros`](https://github.com/Kinovarobotics/kinova-ros)). | 2006 |
| [KiQ Robotics](https://kiq-robotics.co.jp/) | Develop autonomous robotic systems for the retail and e-commerce industries. Their technology is designed to automate various in-store operations, such as inventory management, order fulfillment, and customer service. ROS drivers for KiQ Robotics (see [`KiQ-Robotics`](https://github.com/KiQ-Robotics)). | 2019 |
| [Kittyhawk](http://kittyhawk.aero) | Construct a remotely piloted, electric single-person aircraft. With the intention of creating air taxis. ROS driver for Swift Navigation SBP devices (see [`swiftnav_ros`](https://github.com/KittyHawkCorp/swiftnav_ros)). | 2010 |
| [Kiwibot](https://www.kiwibot.com/) | Offer food delivery with robots for [campus colleges](https://www.kiwibot.com/college-campuses). ROS Drivers for communicating with Kiwibot robots (see [`kiwicampus`](https://github.com/kiwicampus)). | 2017 |
| [Klas](http://www.klasgroup.com/) | Offer communication hardware and software solutions for the government, public, and transport sectors. With [RAVEN](https://www.klasgroup.com/klas-unveils-raven-av-research-development-solutions/), developers can instantiate multiple ADE with [ROS2](https://www.klasgroup.com/wp-content/uploads/2022/06/Autoware_Auto_RAVEN_Deployment_eBook.pdf)/DDS that are seamlessly interconnected with the vehicle's IP network of sensors and cameras, radars and ECUs on the CAN bus. | 1991 |
| [Klepsydra Technologies](http://www.klepsydra.org) | A professional software engineering and cloud computing tool for computationally intensive intelligent devices and embedded systems applications. It has a two-fold purpose: accelerate the development of complex embedded software, and optimise, or increase, the computational performance of the on-board software for complex tasks like sensor fusion or image processing. [Klepsydra’s benchmark](https://klepsydra.com/ros-benchmark/). On this occasion, ROS multithreading mechanisms and Klepsydra ROS plug-in were compared in an Odroid XU4 computer. | 2017 |
| [KPIT](https://www.kpit.com/) | Global partner to the automotive and mobility ecosystem for making software-defined vehicles a reality. Hiring ROS talent[^290] | 1990 |
| [KRONE Agriculture](https://www.krone-agriculture.com/) | Develop agricultural machinery. Their product range includes disc mowers, rotary tedders, rotary rakes, forage wagons and trailers. Agriculture companie KRONE rely on software from [Apex.AI for autonomous farming machines](https://www.apex.ai/krone-lemken?utm_campaign=Company&utm_content=262349469&utm_medium=social&utm_source=linkedin&hss_channel=lcp-18905061). | 1906 |
| [Kudan](https://www.kudan.io/) | Provides artificial perception technologies based on SLAM, to use in autonomous driving, robotics, AR/VR and smart cities. Turtlebot running ROS with 2D LiDAR, and added Kudan SLAM as a ROS navigation module [^92]. | 2010 |
| [KUKA](http://www.kuka.com) | Is a manufacturer of robotic systems, offering a wide range of industrial robots and robot systems. Hiring ROS engineers ([Robot Operating System Intern](https://www.linkedin.com/jobs/view/3253050338)). | 1898 |
| [Kyocera](https://global.kyocera.com/robotics/) | Supply industrial and automotive components, semiconductor packages, electronic devices, smart energy systems, printers, copiers and mobile phones. The company is [currently member](https://rosindustrial.org/current-members) of ROS-Industrial, is an open-source project that extends the advanced capabilities of ROS to manufacturing automation and robotics (see [`ros-industrial`](https://github.com/ros-industrial))[^144]. | 1959 |
| [Labrador Systems](https://labradorsystems.com) | Robotics company building a new generation of assistive robots to improve the quality of people. Hiring ROS engineers ([Senior SLAM Engineer](https://discourse.ros.org/t/senior-slam-engineer-labrador-systems/27502)). | 2017 |
| [Lanner](https://www.lannerinc.com) | Hardware provider with design, engineering, and manufacturing services for advanced network appliances, ruggedized in-vehicle, industrial computers, power substation computers and edge AI appliances. Offers ROS 2 support through third party solutions in their embedded devices[^214]. Also leverages ROS 2 hardware acceleration solutions. | 1978 |
| [LeddarTech](http://www.leddartech.com) | Automotive solutions company that solves critical fusion and perception challenges for all levels of autonomy. ROS package exposing LeddarTech sensors based on the "leddar" Python module (see [`leddar_ros`](https://sdk.leddartech.com/v4.3/#/ROS?id=leddar_ros)). | 2007 |
| [LEJU ROBOTICS](http://www.lejurobot.com) | Intelligent humanoid robot company, which focus on researching and developing, marketing and manufacturing of robot. An image processing pipeline for ROS for LEJU ROBOTICS (see [`LejuRobotics/ros_image_pipeline`](https://github.com/LejuRobotics/ros_image_pipeline)). | 2016 |
| [Lely](https://www.lely.com/) | Create products for the agricultural sector. From milking robots, care products and automated feeding systems to barn cleaners. The company is [currently member](https://rosindustrial.org/current-members) of ROS-Industrial, is an open-source project that extends the advanced capabilities of ROS to manufacturing automation and robotics (see [`ros-industrial`](https://github.com/ros-industrial))[^145]. | 1948 |
| [LEMKEN](https://lemken.com/) | One of the leading agricultural machinery manufacturers worldwide. Agriculture companie LEMKEN rely on software from [Apex.AI for autonomous farming machines](https://www.apex.ai/krone-lemken?utm_campaign=Company&utm_content=262349469&utm_medium=social&utm_source=linkedin&hss_channel=lcp-18905061). | 1780 |
| [Lemvos](http://www.lemvos.com) | Offer data-collection solutions to the waterborne sector. ROS used for industrial use cases. Participation in ROS-Industrial Conference 2022. | 2022 |
| [Leo Drive](http://www.leodrive.ai) | Leo Drive is an experienced full-stack autonomous vehicle company that develops scalable and reliable autonomous hardware and software products. Leo Drive adopted ROS2-based Autoware project as the software framework for technology development. ROS drivers for Leo Drive (see [`leo-drive`](https://github.com/leo-drive)). Hiring engineers with experience in ROS ([Sales Engineer](https://www.linkedin.com/jobs/view/3555151234/?refId=ikeNMrJz5mkKIhXlvjVRmg%3D%3D)). | 2015 |
| [Leo Rover](http://www.leorover.tech) | Is an open-source project that provides developers the tools they need to accelerate the process of building. [Leo Rover](https://www.leorover.tech/the-rover) is an outdoor Robotics Development Kit. ROS packages for Leo Rover (see [`leo_common`](https://github.com/LeoRover/leo_common)). | 2016 |
| [LexxPluss](https://lexxpluss.com/) | Design robots for logistics warehouses. Provide a robot that utilize autonomous driving mode and a guided driving. ROS driver for LexxPluss (see [`LexxPluss`](https://github.com/LexxPluss)). | 2020 |
| [LG (SVL Simulator)](https://www.svlsimulator.com/) | Simulation platform used for autonomous vehicle and robotic system development. ROS/ROS2 Multi-robot Simulator for Autonomous Vehicles (see [`simulator`](https://github.com/lgsvl/simulator))[^91]. | 2018 |
| [LionsBot](http://www.lionsbot.com) | Create cleaning robots as a service for commercial, industrial, and public spaces. Mohan Rajesh Elara, from Lionsbot presented the talk on 'The Rise of ROS Powered Maintenance Robots' during the ROS-Industrial Asia Pacific [^171]. | 2018 |
| [Livox LiDAR](https://www.livoxtech.com/) | Provide high-reliability LiDAR products that are high performance, low cost and ready to be put around the world. Livox device driver under Ros2, support Lidar [Mid-40](https://www.livoxtech.com/mid-40-and-mid-100), [Mid-70](https://www.livoxtech.com/mid-70), [Tele-15](https://www.livoxtech.com/mid-70), [Horizon](https://www.livoxtech.com/horizon), [Avia](https://www.livoxtech.com/avia) (see [`livox_ros2_driver`](https://github.com/Livox-SDK/livox_ros2_driver)). | 2016 |
| [Locus Robotics](https://locusrobotics.com/industry_solutions/industrial/) | Build autonomous mobile robots that work with hardware and software infrastructure to convert source code into executable packages that can be deployed to the robots from the cloud. ROS driver for Locus Robotics robots (see [`locusrobotics`](https://github.com/locusrobotics)). | 2014 |
| [Logivations](http://www.logivations.com) | Work on a new generation of autonomous mobile robots. They use AI-based localization and navigation technologies. Hiring engineers with experience in ROS ([Robotics Software Engineer](https://discourse.ros.org/t/robotics-software-engineer-logivations-ros2-munich-germany-and-remote/23563)). | 2010 |
| [LoopX](https://www.loopx.ai/) | Offers system solutions for autonomous vehicles, mining equipment manufacturers, and mining technology companies. ROS drivers for LoopX (see [`loopx-ai`](https://github.com/loopx-ai)). | 2022 |
| [LUCID Vision Labs](https://thinklucid.com) | Design and manufacture machine vision cameras and components that utilize the latest technologies. ROS drivers for LUCID Vision Labs (see [`lucidvisionlabs`](https://github.com/lucidvisionlabs)). | 2017 |
| [Lulav Space](https://lulav.space/) | Robotics company that specializes in GN&C, computer vision, and simulation. Sponsor of the [ROScon](https://roscon.ros.org/2023/) 2023. | 2021 |
| [Luminar Technologies](https://www.luminartech.com) | Is an autonomous vehicle and lidar [technology](https://www.luminartech.com/technology/) company for passenger cars, commercial trucking and robo-taxi. ROS drivers for Luminar (see [`luminartech`](https://github.com/luminartech)). | 2012 |
| [LuxAI](http://luxai.com) | Robotic solutions for education, health-care and entertainment. Their mission is to make robots that work improving the health and education of people. Repository contains the LuxAI QTrobot[^56] open-source softwares and the relevant ROS messages (see [`software`](https://github.com/luxai-qtrobot/software)). | 2016 |
| [Luxolis](https://luxolis.ai/) | Offer software and hardware solutions to enable individuals and organizations to use 3D technology. Hiring engineers with experience in ROS ([Robotics Software Engineer (ROS)](https://www.linkedin.com/jobs/view/3723322615)). | 2020 |
| [Luxonis](https://www.luxonis.com/) | Develops human-Level perception in embedded systems with permissive open-source MIT-licensed hardware, software, and AI-training. ROS Drivers for DepthAI software [DepthAI](https://www.luxonis.com/applications) (see [`luxonis`](https://github.com/luxonis)). | 2018 |
| [Machani Robotics](https://www.machanirobotics.com/) | Build humanoids an their brains. Hiring ROS engineers ([Robotics And Embedded Hardware](https://www.yuvajobs.com/jobs-vacancy-robotics-and-embedded-hardware-internship-in-bangalore-at-machani-robotics-machani-robotics-14627935.html)). | 2020 |
| [Magazino GmbH](https://www.magazino.eu/?lang=en) | Creates and constructs mobile, perception-controlled robots for intralogistics. Individual objects can be located using 2D and 3D cameras and identified on the shelf using Magazinos technology. This technology was created with warehouses in mind. ROS Drivers for communicating with Magazino robots (see [`magazino`](https://github.com/magazino))[^90]. | 2014 |
| [Magna International](https://www.magna.com/) | Mobility tech company and auto supplier that engages in body exteriors, structures, power, vision, and seating. The company is [currently member](https://rosindustrial.org/current-members) of ROS-Industrial, is an open-source project that extends the advanced capabilities of ROS to manufacturing automation and robotics (see [`ros-industrial`](https://github.com/ros-industrial))[^146]. | 1957 |
| [Makai Ocean Engineering](https://www.makai.com/) | Specialize in ocean engineering and technology development. Include underwater technology, renewable energy, deep-sea mining, and ocean thermal energy conversion (OTEC). Hiring ROS engineers ([Robotics and Software Test Engineer](https://discourse.ros.org/t/robotics-and-software-test-engineer-autonomous-systems-makai-ocean-engineering/29926)). | 1973 |
| [MakarenaLabs SRL](https://www.makarenalabs.com/) | The company offers software design, development, analysis with cutting-edge technologies, hardware acceleration with Xilinx FPGA tools, embedded system design. [MuseBox](https://musebox.it/) is a real-time machine learning system designed for real-time AV Broadcasting applications. You can also connect the core system to your industrial system through a standard protocol like [ROS](https://www.makarenalabs.com/musebox/). | 2016 |
| [Mamezou Co](https://www.mamezou.com/) | Offer computerization and optimization of IoT systems in the business and AI area. Sponsor of the [ROScon](https://roscon.ros.org/jp/2019/) JP 2019. ROSCon is a developers conference [^166]. | 2000 |
| [MangDang](https://mangdang.store/) | Specializes in the research, development, and production of robot products. They launched their first Robot Operating System (ROS) based quadruped robot (robot with four legs), named Mini Pupper in 2021. Sponsor of the [ROScon](https://roscon.ros.org/2023/) 2023. | 2020 |
| [MAN TRUCK & BUS INDIA](https://www.mantruckandbusindia.com/) | Manufacture and sell a range of commercial vehicles, including trucks, buses, and engines, for various applications in the Indian market. Hiring ROS engineers ([Technical expert](https://www.mantruckandbusindia.com/jobs-1/technical-expert-autonomous-driving.html)). | 1915 |
| [Marel](http://www.marel.com) | Manufactures and provides equipment, systems, software and services to the poultry, meat and fish processing industries. Hiring engineers with experience in ROS ([Senior Software Engineer](https://jobs.marel.com/es/es/job/14732/Senior-Software-Engineer-Robotics)). | 1983 |
| [Maria Medical Technology](http://www.mmt.ae) | Develop a laser and energy-based aesthetic and [medical device solutions](https://www.mmt.ae/products/) for healthcare field. Also enters the field of medical cobots by designing and developing the [i LASER](https://www.mmt.ae/i-laser/). Hiring ROS engineers ([Robotics Software Engineer](https://discourse.ros.org/t/job-robotics-software-engineer/19718)). | 2020 |
| [marinom GmbH](https://www.marinom.de/) | Provide maritime technology solutions. ROS used for industrial use cases. Participation in ROS-Industrial Conference 2022. | 2021 |
| [Marvelmind Robotics](https://marvelmind.com/) | Is an autonomous robotics company. They design, manufacture and sell autonomous robots and robotic systems for logistics, factory automation and research. ROS drivers for Marvelmind Robotics (see [`MarvelmindRobotics`](https://github.com/MarvelmindRobotics)). | 2005 |
| [MathWorks](https://www.mathworks.com/) | Develop mathematical computing software. ROS Toolbox provides an interface connecting MATLAB (used for mathematical calculations) and Simulink (modeling and simulating complex systems) with the ROS and ROS 2, enabling to create a network of ROS nodes. This project relies on ROS Toolbox functionality (see [`Message-De-Serializer-for-ROS`](https://github.com/mathworks/Message-De-Serializer-for-ROS))[^89]. | 1984 |
| [Matician](http://www.matician.com) | Build autonomous home machines. Using sensors and algorithms they design the devices with Level-5 autonomy and mobility. A ROS package tool to analyze the IMU performance (see [`MaticianInc/imu_utils`](https://github.com/MaticianInc/imu_utils)). | 2017 |
| [MeBotX](https://www.mebotx.com/) | Produces robotic exoskeletons. Based on ROS-BC Interface Platform (ROS-BCI) to create a [ROS](https://en.mebotx.com/?content/86)-based brain interface ecosystem. | 2018 |
| [Mech-Mind Robotics](https://www.mech-mind.com/) | Is dedicated to giving intelligence to industrial robots. ROS interface for Mech-Eye cameras (see [`mecheye_ros_interface`](https://github.com/MechMindRobotics/mecheye_ros_interface)). | 2016 |
| [Meta](https://www.metacareers.com/) | Build technologies that help people connect, find communities, and grow businesses. Hiring engineers with experience in ROS ([Robotics Automation Engineer](https://www.metacareers.com/jobs/261913153546066/)). | 2004 |
| [Microchip](https://www.microchip.com) | Silicon vendor. Embedded control solutions. Well known for microcontrollers and FPGA solutions. PolarFire SoC family. | 1989 |
| [Microsoft](https://www.microsoft.com/) | Software corporation that develops, manufactures, licenses, supports, and sells a range of software products and services. The company is [currently member](https://rosindustrial.org/current-members) of ROS-Industrial, is an open-source project that extends the advanced capabilities of ROS to manufacturing automation and robotics (see [`ros-industrial`](https://github.com/ros-industrial))[^147]. | 1975 |
| [MicroStrain](https://www.microstrain.com/) | Produce micro-displacement sensors for strain measurement in biomechanics research applications. ROS drivers for MicroStrain (see [`LORD-MicroStrain`](https://github.com/LORD-MicroStrain)). | 1987 |
| [Milvus Robotics](https://milvusrobotics.com) | Offer Autonomous Mobile Robots (AMRs). SEIT[^34] robots move materials with no human intervention required. ROS Drivers for communicating with Milvus Robotics products (see [`milvusrobotics`](https://github.com/milvusrobotics)). | 2011 |
| [MindHome](http://www.mindhome.co) | Transform home experience with robots designed to cook, clean and fold laundry. ROS drivers for MindHome robots (see [`MindHome-Inc`](https://github.com/MindHome-Inc)). | 2018 |
| [Miso Robotics](https://misorobotics.com) | Robots-as-a-Service and intelligent automation solutions for the food industry, specially restaurants and fast-food production. ROS drivers for Miso Robotics (see [`MisoRobotics`](https://github.com/MisoRobotics)). | 2016 |
| [Mitra Informatika](https://mit.id) | They help customer and app developer to build an application more powerful with one integrated platform. Hiring ROS engineers ([ADAS and AD Engineer](https://mit.id/jobs/adas)). | 2013 |
| [Mitsubishi Electric](http://www.mitsubishielectric.com/) | Manufacture and sell electric and electronic equipment used in various systems and appliances. Mitsubishi supports ROS functions [^172]. | 1921 |
| [Mobile Industrial Robots](https://www.mobile-industrial-robots.com/) | Produce and develop mobile autonomous robots for industry and manufacturing companies. MiR developing a cheap mobile robot with [ROS](https://www.dti.dk/specialists/mir-developing-a-cheap-mobile-robot-with-ros/33795). | 2013 |
| [Mojin Robotics GmbH](http://www.mojin-robotics.de) | Develop smart assistant robots. Also offers service robot platform and online and offline integration services. Provides nodes to assemble point clouds from either LaserScan or PointCloud messages for Mojin Robotics (see [`mojin-robotics/laser_assembler`](https://github.com/mojin-robotics/laser_assembler)). | 2015 |
| [Momentum Robotics](https://www.momentumrobotics.in/home) | Offer a range of products and services related to robotics, including consulting, design, development, and integration. Hiring ROS engineers ([Robotics Software Developer](https://www.f6s.com/jobs/51106/momentumrobotics/robotics-software-developer-intern)). | 2019 |
| [MORAI](https://www.morai.ai/) | Develop a virtual simulation environment for testing autonomous driving software. ROS drivers for MORAI (see [`MORAI-Autonomous`](https://github.com/MORAI-Autonomous)). | 2018 |
| [Motius](https://motius.de/) | Provide consulting, software development, and research and development services. ROS drivers for Motius (see [`motius`](https://github.com/motius)). | 2013 |
| [Motiv Space Systems](http://www.motivss.com) | Provider of advanced robotic systems for research, industrial applications, disaster relief, defense, and extreme environments. Installation and user instructions for all Motiv [ROS Software](https://buildmedia.readthedocs.org/media/pdf/motiv-ros-documentation/industrial_arm/motiv-ros-documentation.pdf). | 2014 |
| [MoviĜo Robotics](http://www.movigorobotics.com) | Specialize in developing, delivering and implementing AGV industry 4.0 solutions. They offer ROS[^80] Development and complete data integration services with existing back-office and database systems. | 2018 |
| [MOV.AI](https://www.mov.ai/) | A Robotics Engine platform based on ROS and packaged in intuitive web based interface. It contains everything needed to build, deploy and operate intelligent robots. The IDE that brings visualization and structure to ROS (see [`movai-flow`](https://github.com/MOV-AI/movai-flow))[^88]. | 2016 |
| [mu Space Corp](http://www.muspacecorp.com) | Focus on developing and launching satellite and space technologies and services for a variety of applications, including telecommunications, earth observation, and space exploration. Hiring ROS engineers ([Robotics software engineer](https://muspacecorp.com/robotics-software-engineer/)). | 2017 |
| [Naïo Technologies](https://www.naio-technologies.com/en/home/) | Develop autonomous robot for agriculture in close collaboration with farmers. [Ted](https://www.naio-technologies.com/en/ted/), the first robot dedicated to vineyards. CanOpen-to-ROS bridge (see [`kacanopen`](https://github.com/NaioTechnologies/kacanopen)). | 2011 |
| [NakAI Robotics](https://nakairobotics.com) | Develop cutting-edge vessels' Grooming and Inspection solutions. ROS Perception package (depthimage_to_laserscan) that converts a depth image to a laser scan for use with navigation and localization for NakAI Robotics (see [`nakai-robotics/depthimage_to_laserscan`](https://github.com/nakai-robotics/depthimage_to_laserscan)). | 2021 |
| [Nala Robotics](https://nalarobotics.com/) | Design custom kitchen robots that work in a fully automated way. [Nala](https://nalarobotics.com/nala-chef-one-point-one-product.html) is the first AI and ML-powered multi-cuisine Chef. Being AI-powered, Nala Chef, a customizable robot that uses machine learning to cook infinite recipes. Hiring ROS engineers ([ROS Engineer](https://www.localwalkins.com/job/ros-engineer)). | 2017 |
| [Nature Robots](https://naturerobots.com/) | Nature Robots promotes regenerative and ecological agriculture through AI and robotics by supporting perennial and diverse farming systems through innovative software and hardware solutions. Maintaining the software stack for navigation on meshes (see [`mesh_navigation`](https://github.com/naturerobots/mesh_navigation) and [`mesh_tools`](https://github.com/naturerobots/mesh_tools)).| 2022 |
| [Nauticus Robotics](https://nauticusrobotics.com/) | Developer of ocean robots, autonomy software and services delivered to the ocean industries. Hiring ROS engineers ([Software Project Manager](https://discourse.ros.org/t/software-project-manager-at-nauticus-robotics/27388)). | 2014 |
| [Navtech Radar](https://navtechradar.com/) | Manufacture of commercially deployed radar solutions. Introducing [ROS](https://navtechradar.com/ros-compatibility/) compatibility for OEMSensors | 1999 |
| [NavVis](https://www.navvis.com) | SLAM-based mobile mapping solutions to generate high-quality data and digital twins. Hiring engineers with experience in ROS ([Advanced Software Engineer Visual SLAM](https://www.glassdoor.com.hk/job-listing/advanced-software-engineer-visual-slam-fmd-navvis-JV_IC4990924_KO0,42_KE43,49.htm?jl=1008576029184&pos=126&ao=1136043&s=58&guid=000001877acc9e5b98ae3c30146d4898&src=GD_JOB_AD&t=SR&vt=w&ea=1&cs=1_9f8a7cb8&cb=1681392443993&jobListingId=1008576029184&jrtk=3-0-1gttcp7kak63v801-1gttcp7l4g2dh800-d6b6e4317c0d981a-&ctt=1681392478936)). | 2013 |
| [NCS Group](https://www.ncs.co/en-sg/) | Provide services and solutions in consulting, digital, technology and cybersecurity. [Robotmanager](https://www.robotmanager.com/) is a product developed by NCS Robotics, provides a highly extensible approach that allows robot vendors and developers to easily integrate 3rd-party business apps and support more A.I. capabilities.Sponsor of the [ROScon](https://roscon.ros.org/2022/). | 1981 |
| [Nearthlab](http://nearthlab.com) | Provide autonomous drone solutions powered by proprietary deep-learning algorithms for safety inspection in the wind and renewable energy sectors. ros2 vision_opencv contains packages to interface ROS 2 with OpenCV for Nearthlab (see [`nearthlab/vision_opencv`](https://github.com/nearthlab/vision_opencv)). | 2015 |
|[Neo Cybernetica](https://www.neocybernetica.com/) | Develop cybernetics technology to improve the capability of artificially intelligent systems. Hiring ROS engineers ([Embedded Systems Engineer](https://discourse.ros.org/t/embedded-systems-engineer-robotics-neo-cybernetica/27582)). | 2021 |
| [Neobotix GmbH](https://www.neobotix-robots.com/homepage) | Design, develop and manufacture mobile robot, robot arms and omnidirectional robots, with full ROS support can support industrial requirements. ROS and ROS-2 packages (see [`neobotix`](https://github.com/neobotix))[^87]. | 2010 |
| [Nerian Vision](https://nerian.com) | Manufacturer of 3D depth sensors for robotics, automation, surveillance and other industries. ROS driver for Nerian Vision sensors (see [`nerian-vision`](https://github.com/nerian-vision)). | 2015 |
| [NEURA Robotics](https://neura-robotics.com/) | Develop robotics solutions for various applications. The company provides innovative robotics technology, such as autonomous robots and smart machines, for industries such as logistics, agriculture, and construction. ROS used for industrial use cases. Participation in ROS-Industrial Conference 2022. | 2019 |
| [NEUROMEKA](http://www.neuromeka.com) | Specializes in robot technology and creates a robot platform business for manufacturing companies. ROS drivers for NEUROMEKA robots (see [`neuromeka-robotics`](https://github.com/neuromeka-robotics)). | 2013 |
| [Nexuni Co. Ltd.](www.nexuni.com) | Provide automation solutions in dessert and beverage shops and parking lot management. Our robotic systems incorporate a human-like cognitive learning process to continuously improve its decision-making model based on actual management data. ROS drivers for Nexuni robots (see [`nexuni`](https://github.com/nexuni)). | 2019 |
| [Neya Systems](https://www.neyarobotics.com/) | Develop advanced autonomous solutions to navigate unknown terrain while avoiding obstacles and precisely tracking wheel placement for optimal path trajectory. ROS-M is a software ecosystem for military RAS based on open ROS. | 2009 |
| [nfiniity GmbH](https://www.nfiniity.com/) | Develop Vehicle-to-Everything (V2X) solutions running a ROS-based V2X stack framework with the mission to enhance intelligent mobility ecosystems and the creation of next-generation autonomous vehicles. | 2018 |
| [Niryo](https://niryo.com) |Design industrial robotic solutions composed of robot arms, vision, artificial intelligence and cloud computing. The Ned2[^59], 6-axis collaborative robot designed for Education. Ned ros stack (see [`ned_ros`](https://github.com/NiryoRobotics/ned_ros)). | 2016 |
| [Nissan](https://www.linkedin.com/company/nissan-motor-corporation) | Global car manufacturer. Looking for ROS talent[^260] in their Alliance Innovation Lab – Silicon Valley (AIL-SV) | 1933 |
| [Nobleo Technology](https://nobleo-technology.nl/) | Develop advanced technologies and solutions for the automotive industry. They focus on creating advanced driver assistance systems (ADAS), autonomous driving, and connected vehicle technologies. They use [ROS](https://nobleo-technology.nl/news/whitepaper-mobile-robot-navigation-ros2/) to develop and implement advanced features such as perception, navigation, and control in their robots. | 2011 |
| [NODE Robotics](https://node-robotics.com/) | NODE offers plug and play software solutions for autonomous intralogistics. Have been using ROS as middleware and toolkit since day one to build NODE.OS, a plug-and-play, industry-ready, and hardware-agnostic software stack for intralogistics applications[^315]. | 2020 |
| [Nokia Bell Labs](https://www.bell-labs.com/) | Is the industrial research arm of Nokia, having invented many of the foundational technologies that underpin information and communications networks and all digital devices and systems. Sponsor of the [ROScon](https://roscon.ros.org/2022/). | 1925 |
| [NOKOV Motion Capture](https://www.nokov.com/) | Company focused on optical 3D motion capture system in researching, developing, manufacturing and relative technical services. ROS nodes for working with the Nokov motion capture system (see [`mocap_nokov`](https://github.com/NOKOV-MOCAP/mocap_nokov)). | 2015 |
| [Noosware BV](http://noosware.com/) | Offer business and cloud intelligence solutions through open collaborative online environments. A few ROS-based tutorials using the NOOS Cloud Robotics platform (see [`NoosWare/noos_ros_tutorials`](https://github.com/NoosWare/noos_ros_tutorials)). | 2018 |
| [Novium](https://www.noviumdesigns.com/) | Robotics engineering firm serving the space and automation industries. Hiring engineers with experience in ROS ([Robotics Software Engineer](https://www.linkedin.com/jobs/view/robotics-software-engineer-at-novium-ltd-3556755267/)). | 2021 |
| [Noyes Technologies GmbH](https://www.noyes-tech.com/) | Provide services that include logistics, robotics, warehouse automation, nano fulfillment, warehouse solutions, and urban fulfillment. Hiring engineers with experience in ROS ([ROS developers](https://discourse.ros.org/t/startup-looking-for-ros-developers-fulltime-interns-in-munich-germany/20985)). | 2021 |
| [NTT Disruption](https://disruption.global.ntt) | NTT Disruption is an information technology company dedicated to technical support and enterprise software design. Using [ROS](https://www.linkedin.com/in/jorgegd/?locale=en_US) in their robotics engineering activities. | 2019 |
| [Numurus](https://numurus.com/) | Help companies reduce the cost, time, and risks of bringing Edge-AI and robotic solutions to market. Numurus partners with PickNik to deliver web user interfaces for [ROS](https://numurus.com/press/numurus-partners-with-picknik-for-ros-ui-development/)-based systems. | 2017 |
| [Nuro](https://www.nuro.ai/) | Custom electric autonomous vehicles for home deliveries. Looking for ROS talent in their vehicle infrastructure team[^257]| 2016 |
| [NVIDIA](https://www.nvidia.com/es-es/autonomous-machines/robotics/) | Silicon vendor. High-performance GPU-based computing including CPU and GPU solutions. Jetson family of products.| 1993 |
| [NXP Semiconductors](http://www.nxp.com) | Provide technology solutions targeting the automotive, industrial & IoT, mobile, and communication infrastructure markets. Produce secure connectivity solutions for embedded applications. Installing [ROS](https://community.nxp.com/t5/i-MX-Processors-Knowledge-Base/Installing-ROS-Indigo-on-NXP-i-MX-boards/ta-p/1126471) on NXP i.MX boards | 2006 |
| [NXROBO](http://www.nxrobo.com/) | Build China's largest ROS community "Spark Plan", dedicated to the research and development of ROS commercial-grade product technology and empowering education. Its core business is to provide AI & The overall solution for robotic labs and practical courses. The ROS wrapper of Sparks's driver plus various ROS applications (see [`spark`](https://github.com/NXROBO/spark)). | 2015 |
| [NXTGEN Robotics](http://www.nxtgenindustries.com.au) | Robotics and Data Intelligence company. Offers different [robotic control solutions](https://nxtgenindustries.com.au/robotic-controls/) like Robotic Autonomous Navigation, Robotic Vision and Perception Systems, Motion Control, Obstacle Avoidance and 3D Mapping. ROS drivers for NXTGEN Robotics (see [`NXTGEN-Robotics`](https://github.com/NXTGEN-Robotics)). | 2019 |
| [Object Computing](http://objectcomputing.com) | Deliver software solutions that accelerate business outcomes. Sponsor of the [ROScon](https://roscon.ros.org/world/2020/) 2020. ROSCon is a developers conference [^167]. | 1993 |
| [](https://www.ocadogroup.com) | End-to-end eCommerce, fulfilment and logistics platform. Hiring engineers with experience in ROS ([Senior Simulation Software Engineer](https://work180.com/en-gb/for-women/employer/ocado-technology/job/262701/senior-simulation-software-engineer---advance)). | 2000 |
| [Oceaneering](https://www.oceaneering.com/) | Design logistic solutions based on autonomous mobile robot technology. Hiring engineers with experience in ROS ([Senior Application Software Engineer](https://careers.oceaneering.com/global/en/job/23391/Senior-Application-Software-Engineer)). | 1964 |
| [Octobotics Tech](https://octobotics.tech/) | Build marine and aero robotic platforms with modular manipulators for atonomous inspection. They combine the principles of control and balance with mechanical designs, cutting-edge hardware and electronics. Hiring ROS engineers ([ROS Engineer (Robotics)](https://www.linkedin.com/jobs/view/ros-engineer-robotics-at-octobotics-tech-3316487598/?originalSubdomain=in)). | 2020 |
| [Odd.Bot](https://www.odd.bot/) | Produce autonomous, mobile weed removal robots. Hiring ROS engineers ([Robot Network Engineer](https://www.odd.bot/vacancy-robot-network-engineer)). | 2018 |
| [OffWorld](http://offworld.ai) | Develop AI-powered rugged robots for heavy industrial jobs in the mining, infrastructure, and space sectors. Provides the ROS over CAN protocol proxy (see [`Offworld-Robotics/ROC2`](https://github.com/Offworld-Robotics/ROC2)). | 2016 |
| [Ola Electric](https://olaelectric.com/) | Indian electric mobility company that provides electric vehicles and charging solutions. Hiring ROS engineers ([Embedded Developer](https://www.instahyre.com/job-211749-embedded-developer-at-ola-electric-mobility-bangalore/)). | 2017 |
| [Olive Robotics](https://www.olive-robotics.com/) | Reprogrammable plug and play ROS and ROS 2 native robot hardware components. Modular ROS 2 native [actuators](https://discourse.ros.org/t/olive-robotics-native-ros-speaking-components/27851) and [sensors](https://discourse.ros.org/t/olive-robotics-native-ros-speaking-components/27851). Empowering everyone to build robots intuitively. | 2022 |
| [OMRON Group](https://www.omron.com/) | Manufacture and sale automation components, equipment and systems. ROS Packages for Omron Mobile Robot (see [`Omron_LD_ROS_Package`](https://github.com/OmronAPAC/Omron_LD_ROS_Package)). | 1933 |
| [Open Robotics](https://www.openrobotics.org/) | Open software and hardware platforms for robotics. Maintainers of [ROS](https://www.openrobotics.org/), Gazebo and Open-RMF. | 2012 |
| [Opteran](http://www.opteran.com/) | Develop reverse-engineered biological software and hardware designed to turn biological brain algorithms into the building blocks for machine autonomy. Hiring engineers with experience in ROS ([Senior Autonomy Engineer - Localisation](https://www.linkedin.com/jobs/view/3697468447)). | 2020 |
| [Optonic](https://www.optonic.com/en/) | Reliable and innovative partner for our customers for industrial solutions in the field of 2D and 3D camera systems, image processing, as well as machine and robot control. Using [ROS](https://discourse.ros.org/t/optonic-is-looking-for-a-software-engineer-robotics-and-vision-freiburg-germany/24978) in their robotics engineering activities. | 2020 |
| [Orangewood Labs](http://www.orangewood.co) | Develop robotic arms. Hiring ROS engineers ([ROS Engineer](https://angel.co/company/orangewood-labs/jobs/1916372-ros-engineer-full-time)). | 2016 |
| [Orbbec](http://www.orbbec3d.com) | Develop 3D motion sensor. ROS wrapper for Astra camera (see [`orbbec/ros_astra_camera`](https://github.com/orbbec/ros_astra_camera)). | 2013 |
| [Orbital Composites](https://orbitalcomposites.com/) | 3D printing robots for on-orbit manufacturing of advanced materials. Flexible and modular systems utilize ROS and ROS2 for the planning and control of collaborative multi-agent systems. Orbital is an official system partner of KUKA and is driving forward support for KUKA robots in ROS Industrial. Hiring engineers with experience in ROS ([SWE](https://discourse.ros.org/t/orbital-composites-robotic-3d-printing-company-hiring-a-swe/26499)). | 2015 |
| [Organifarms](http://www.organifarms.de) | Agriculture company that provides sustainable and efficient agriculture solutions. It uses technology such as vertical farming and hydroponics to grow crops in an indoor environment. ROS used for industrial use cases. Participation in ROS-Industrial Conference 2022. | 2020 |
| [Orthoplex Solutions](https://orthoplexsolutions.com) | Provide engineering, software, and web development custom solutions. Hiring engineers with experience in ROS ([ROS Developer](https://www.linkedin.com/jobs/view/3734230723)). As a ROS Developer, responsible for developing and maintaining software for autonomous driving systems. | 2015 |
| [OSARO](https://osaro.com/) | Create machine intelligence software that combine state-of-the-art perception with powerful adaptive decision-making abilities to help computer and robotic systems act efficiently and intelligently. Hiring engineers with experience in ROS ([Robot Control Software Engineer](https://discourse.ros.org/t/robot-control-software-engineer-at-osaro-san-francisco/3778)). | 2015 |
| [OTSAW](http://otsaw.com/) | Offer security, delivery and disinfection robot services on a subscription base to help you reduce time to benefit and be more flexible. Hiring engineers with experience in ROS ([Robotics Software Engineer](https://meet.jobs/en/jobs/22497-robotics-software-engineer)). | 2015 |
| [OttonomyIO](https://ottonomy.io/) | Develop autonomous robot fleets to make contactless deliveries in both indoor and outdoor environments. Hiring ROS engineers ([Robotics Engineer](https://tarta.ai/j/SH_whH0B6wMe-sGqFdJs-robotics-engineer-in-new-york-ny-at-ottonomyio)). | 2020 |
| [OTTO Motors](http://www.ottomotors.com/) | OTTO Motors is Clearpath’s industrial division, providing autonomous mobile robots (AMRs) for material handling inside manufacturing facilities and warehouses. Sponsor of the [ROScon](https://roscon.ros.org/2023/) 2023. | 2015 |
| [Ouster](https://ouster.com/) | Build digital lidar sensors and perception tools for robots. ROS is used as the middleware, providing inter-process communication between the software components as well as robot-specific libraries and visualizers. This repository contains Ouster SDK source code to connect ouster sensors, reading and visualizing data, and interfacing with ROS. (see [`ouster_example`](https://github.com/ouster-lidar/ouster_example)). | 2015 |
| [Outrider](https://www.outrider.ai) | Autonomous yard operations with robotic systems. Seeking for ROS talent in their autonomy team[^265] | 2017 |
| [Outsight](https://outsight.ai/) | Develop a kind of sensor, a 3D Semantic Camera that brings Full Situation Awareness to Smart Machines and Cities. Hiring ROS engineers ([Field Application Engineer](https://jobs.lever.co/outsight/54d85492-14e7-45d2-b3a8-bf72da0f1bd2)). | 2019 |
| [Oversonic](https://www.oversonicrobotics.com/) | Design and build cognitive computing systems, applying them, in particular, to the field of robotics. ROS driver for Oversonic (see [`OversonicRobotics`](https://github.com/OversonicRobotics)). | 2020 |
| [Owl Autonomous Imaging](http://www.owlai.us) | Deliver Monocular 3D Thermal Ranging solutions to industrial and automotive mobility markets. Hiring ROS engineers ([Senior Application Engineer](https://www.linkedin.com/company/owlai/about/)). | 2018 |
| [PAL Robotics](https://pal-robotics.com/) | Design, craft and customize humanoid and mobile robots, and modular robotic parts that adjust to people’s needs, enabled with ROS framework. Software package and ROS wrappers (see [`pal-robotics`](https://github.com/pal-robotics))[^86]. | 2004 |
| [Parker Microstrain](https://www.microstrain.com/) | Make tiny sensors and systems that are used in a wide range of applications. Use ROS internally and to enable customers. Provide ROS drivers for their sensors and devices[^308]. | 1924 |
| [Parrot](https://www.parrot.com/us) | Leading European group in the drones industry. Various aerial solutions for commercial and professional applications which offer various ROS connectors and integrations (e.g. see [`slamdunk_ros`](https://github.com/Parrot-Developers/slamdunk_ros))[^85]. | 1994 |
| [Path Robotics](https://www.path-robotics.com/) | Develop fully autonomous and intelligent robotic welding cells. ROS drivers for Path Robotics (see [`path-robotics`](https://github.com/path-robotics)). | 2014 |
| [Peer Robotics](https://www.peerrobotics.ai) | Collaborative mobile robotics company building material handling solutions for manufacturing industries. Robots designed to work with humans and built with ROS at its core. | 2019 |
| [Peppermint Robots](https://getpeppermint.co/) | Design, make and deploy intelligent housekeeping robots for industries and commercial spaces. ROS packages (see [`Peppermint-Robots`](https://github.com/Peppermint-Robots)). | 2019 |
| [PerceptIn](https://www.perceptin.io) | Provide the all-in-one perception, insight, and intelligence solutions for robots and autonomous driving. This package lets you use the Ironsides visual inertial computing module with ROS. (see [`IRONSIDES`](https://github.com/PerceptIn/IRONSIDES)). | 2016 |
| [Percipio Robotics](http://www.percipio-robotics.com) | Develop micro-gripper and micro-assembly robotics solutions. It offers precision robotic micromanipulation, micromechanics, dimensional measurement, chronograph, interfaces, robotic control, and platform solutions. ROS used for industrial use cases. Participation in ROS-Industrial Conference 2022. | 2011 |
| [Petpooja](https://www.petpooja.com) | Provide restaurant management software, including billing, inventory management, online ordering and all other front and back-of-house management modules that any restaurant requires. Hiring engineers with experience in ROS ([ROS Developer](https://www.linkedin.com/jobs/view/3735045438)). | 2011 |
| [Phantom AI](https://phantom.ai/) | Provide a comprehensive autonomous driving platform featuring computer vision, sensor fusion and control capabilities. Hiring engineers with experience in ROS ([Software Developer (C++) for Testing Perception Software](https://boards.greenhouse.io/phantomai/jobs/4059603006)). | 2016 |
| [Phoenix Contact](https://phoe.co/PhoenixContact) | Provide electrical engineering and automation solutions. It offers a wide range of products including electrical components, automation systems, and software solutions for industrial and building automation. ROS used for industrial use cases. Participation in ROS-Industrial Conference 2022. | 1923 |
| [Photoneo](https://www.photoneo.com/) | Provide robotic vision and intelligence. Based on a patented 3D technology, Photoneo develop highest-resolution and highest-accuracy 3D camera ([Phoxi](https://www.photoneo.com/phoxi-3d-scanner/)). ROS Package for PhoXi Scanner/Camera. (see [`phoxi_camera`](https://github.com/photoneo/phoxi_camera)). | 2013 |
| [PI (Physik Instrumente)](https://www.physikinstrumente.com/en/) | Provide hardware and software interfaces for the application environment. Develop and produce robots with combinations of different axes. Hexapods provide motion in six degrees of freedom. ROS driver for PI-Hexapods (see [`PI_ROS_Driver`](https://github.com/PI-PhysikInstrumente/PI_ROS_Driver)). | 1970 |
| [Piaggio Fast Forward](https://www.piaggiofastforward.com/) | Build semi-autonomous self driving mobility platforms [^50]. ROS driver for the Roboclaw[^51] motor controllers (see [`roboclaw_ros`](https://github.com/piaggiofastforward/roboclaw_ros)). | 2015 |
| [PickNik Robotics](https://picknik.ai/) | Create, integrate, patch, or provide training for robotic applications. Particulary in ROS (see [`PickNikRobotics`](https://github.com/PickNikRobotics)), using a open robotics software platform to help companies to reduce risks, development time and costsassociated with robotic applications. | 2015 |
| [Pickit 3D](http://www.pickit3d.com/) | Provide 3D vision systems for robot guidance applications. Hiring engineers with experience in ROS ([Senior computer vision engineer](https://discourse.ros.org/t/senior-computer-vision-and-robotics-software-opportunities-at-pickit-3d/31550)). | 2012 |
| [Pilz](https://www.pilz.com/en-US) | Develop and sell products, systems and services for safe automation including sensors[^46], safety relays[^47], control[^48] systems and drives[^49]. The pilz_robots packages provide ROS (see [`PilzDE`](https://github.com/PilzDE)) support for controlling the Pilz manipulator module PRBT (see [`pilz_robots`](https://github.com/PilzDE/pilz_robots)) and include robot description and launch files. | 1948 |
| [Pixelink](https://www.pixelink.com) | Pixelink is a trusted supplier to OEMs around the world offering cutting-edge camera customization and solutions for robotics, medical and life science instruments, research and industrial equipment. Their official ROS 2 package can be used to incorperate their cameras into ROS2 application (see [`pixelink_ros2`](https://github.com/pixelink-support/pixelink_ros2/tree/main)). | 1992 |
| [PIX Moving](https://www.pixmoving.com/) | Offers one-stop solution with self-driving software and hardware stack, from drive-by-wire chassis, batch customization manufacturing of vehicles to self-driving software integration. ROS Drivers for PIX Moving robots[^45] (see [`pixmoving-moveit`](https://github.com/pixmoving-moveit)). | 2017 |
| [Pixel Robotics](https://www.pixel-robotics.eu/) | Pixel Robotics builds intelligent, perception-controlled robots tailored for logistics. With its unique AI vision infrastructure a digital twin of the operating area is created. Using this real-time twin, Pixel Robotics’s robots work together with their human colleagues - autonomous, safe and with an unmatched level of flexibility. Hiring engineers with experience in ROS ([Robotics Intern](https://discourse.ros.org/t/robotics-intern-pixel-robotics/29811)). | 2020 |
| [Plus](https://www.plus.ai/) | Level 4 Autonomous Trucking Technology. Powered by ROS. Actively seeking for ROS experts[^277]. | 2016 |
| [Plus One Robotics](https://plusonerobotics.com/) | Builds robot perception software and solutions. They give robots the eye-hand coordination to pick and place objects in the warehouses and distribution centers using 3D and AI-powered perception. ROS communications-related packages, core client libraries (roscpp, rospy, roslisp) and graph introspection tools (rostopic, rosnode, rosservice, rosparam) (see [`ros_comm`](https://github.com/plusone-robotics/ros_comm))[^44]. | 2016 |
| [Point One Navigation](https://pointonenav.com) | Provide pecise location as a service, is tailored for autonomous systems including [self driving vehicles](https://pointonenav.com/verticals), commercial drones and other robotic applications where localization is required. ROS drivers for GNSS receiver (see [`septentrio_gnss_driver`](https://github.com/PointOneNav/septentrio_gnss_driver)). | 2016 |
| [Polymath Robotics](https://polymathrobotics.com) | Develop autonomous vehicle software for industrial vehicles. Safety-critical navigation for industrial vehicles. | 2021 |
| [PPM Robotics AS](https://www.ppm.no/) | Develop solutions within the field of advanced, highly-flexible industrial robot systems. The company is [currently member](https://rosindustrial.org/current-members) of ROS-Industrial, is an open-source project that extends the advanced capabilities of ROS to manufacturing automation and robotics (see [`ros-industrial`](https://github.com/ros-industrial))[^148]. | 2000 |
| [Process Champ](https://processchamp.com/) | Develop AI software solutions for positional alignment, machinery guidance, autonomous inspection and quality reporting, predictive failure analysis, and digital twin process optimization. The company is [currently member](https://rosindustrial.org/current-members) of ROS-Industrial, is an open-source project that extends the advanced capabilities of ROS to manufacturing automation and robotics (see [`ros-industrial`](https://github.com/ros-industrial))[^149]. | 2016 |
| [PROPHESEE](https://www.prophesee.ai) | Is the inventor of the most advanced neuromorphic vision systems [^129]. ROS driver for Prophesee [event-based sensors](https://www.prophesee.ai/event-based-sensor-packaged/) (see [`prophesee_ros_wrapper`](https://github.com/prophesee-ai/prophesee_ros_wrapper)). | 2014 |
| [PushCorp](http://pushcorp.com) | Manufacture robotic material removal end-of-arm tooling. The company is [currently member](https://rosindustrial.org/current-members) of ROS-Industrial, is an open-source project that extends the advanced capabilities of ROS to manufacturing automation and robotics (see [`ros-industrial`](https://github.com/ros-industrial))[^150]. | 1993 |
| [qbrobotics](http://www.qbrobotics.com) | Produce actuators, devices and systems for soft robotics as robotic hands, handles, delta robots and VSA. ROS package for [SoftHand](https://qbrobotics.com/product/qb-softhand-industry/) device (see [`ROS-SoftHand`](https://github.com/NMMI/ROS-SoftHand))[^174]. | 2011 |
| [QuadSat](https://quadsat.com/) | Supply airborne antenna testing solutions. QuadSAT system combines advanced drone technology with a custom RF pointing payload. The company is [currently member](https://rosindustrial.org/current-members) of ROS-Industrial, is an open-source project that extends the advanced capabilities of ROS to manufacturing automation and robotics (see [`ros-industrial`](https://github.com/ros-industrial))[^152]. | 2014 |
| [Qualcomm](https://www.qualcomm.com/products/application/industrial-commercial/robotics) | Silicon vendor. Their robotics platform offer compact connectivity-oriented (Wi-Fi, 4G LTE, 5G) high-performance (CPU, GPU, DSP) solutions. Seeking ROS expertise for ADAS software engineering[^278]. | 1985 |
| [Quanergy](http://www.quanergy.com) | Develop solid state sensors used to offer smart sensing services for [self-driving cars](https://quanergy.com/applications/transportation/). ROS driver wrapping the QuanergyClient library to produce ROS cloud messages from Quanergy sensors. (see [`quanergy_client_ros`](https://github.com/QuanergySystems/quanergy_client_ros)). | 2012 |
| [Quantillion Technologies](http://www.quantillion.io/) | Develop software for autonomous mobile robots (AMR). The company focus on industry 4.0, automating and optimizing processes in plants, from order to execution. Hiring engineers with experience in ROS ([Robotics engineer - mobile equipment (ROS/C++)](https://www.linkedin.com/jobs/view/3730269196)). | 2016 |
| [Quasi Robotics](https://quasi.ai) | Offer a range of products and services, including industrial robots, collaborative robots, mobile robots, and custom robotic solutions. ROS2 drivers for Quasi Robotics (see [`quasi-robotics`](https://github.com/quasi-robotics)). | 2017 |
| [RangeAero](http://www.range.aero) | Provide unmanned aircraft systems (UAS) and related services for a variety of applications. Offer a range of products and services, including UAS design, development, and manufacturing, as well as UAS operations and support. Hiring ROS engineers ([Control System Engineer](https://angel.co/company/rangeaero/jobs/701760-control-system-engineer)). | 2020 |
| [Rapyuta Robotics](https://www.rapyuta-robotics.com/) | Builds cloud [^42] robotics solutions. Rapyuta Robotics’ platform makes it easier for businesses to deploy robotics solutions. By integrating robot hardware, software, sensor data, and applications in the cloud. ROS Drivers for cloud and different robotics solutions[^43] (see [`rapyuta-robotics`](https://github.com/rapyuta-robotics)). | 2014 |
| [READY Robotics](http://www.ready-robotics.com/) | Enable manufacturers to more easily deploy robots to the factory floor through a patented technology platform that combines a programming interface and plug'n'play hardware. ROS drivers for READY Robotics (see [`ready-robotics`](https://github.com/ready-robotics)). | 2016 |
| [RealMan Intelligent Technology (Beijing)Co., Ltd.](http://www.realman-robotics.com/) | Focuses on the research, development, manufacture, and marketing of ultra-lightweight humanoid robotic arms. Open API function library, supporting C/C++/C#/Python programming language, and supporting Windows/Linux/[ROS robot operating systems](http://www.realman-robotics.com/RM65xilie.html) and various communication protocols. | 2018 |
| [Realtime Robotics](https://www.rtr.ai) | Invent a specialized [processor](https://rtr.ai/products) for generating safe robot motion plans in micro-seconds, enabling robots to function in unstructured, collaborative work-spaces, reacting to other motions as soon as they are perceived. ROS drivers (see [`RealtimeRobotics`](https://github.com/RealtimeRobotics)). | 2016 |
| [Redwire Space](https://redwirespace.com/) | Provide space hardware and technology solutions. The company designs and manufactures advanced components and systems for the commercial, civil, and military space industries, including payloads, structures, and advanced robotics. ROS used for industrial use cases. Participation in ROS-Industrial Conference 2022. | 2020 |
| [Reebot](https://reebot.tech/) | Is a consulting and engineering services company, software and hardware integration, tests, quality compliance and use of ROS and ROS2. The company is located near Annecy, France. | 2021 |
| [Relativity Space](http://relativityspace.com) | Provide fully automated rocket production and launch services. The company uses advanced robotic technology to manufacture rockets. ROS used for industrial use cases. Participation in ROS-Industrial Conference 2022. | 2016 |
| [Relay Robotics](https://www.relayrobotics.com/) | Supplier of autonomous service robots that work with humans. ROS communications-related packages, including core client libraries and graph introspection tools (see [`ros_comm`](https://github.com/savioke/ros_comm)). Their job offers also hint the use of ROS[^213].| 2013 |
| [REMAKE.AI](https://remake.ai/) | Develop home robot solutions, including consumer pet/companion robots and educational/[DIY 3D-printed](https://makerspet.com) open-source [pet robots/kits](https://github.com/makerspet/makerspet_loki) for makers and STEM. Our robots use [Micro-ROS for Arduino](https://github.com/kaiaai/micro_ros_arduino_kaiaai)-enabled [firmware](https://github.com/kaiaai/firmware) that runs on the robot's micro-controller and [ROS2 (with LiDAR/LDS-enabled Nav2 stack)](https://github.com/kaiaai/kaiaai/) running [in Docker](https://github.com/kaiaai/docker) on a local PC. | 2023 |
| [REMY Robotics](https://remyrobotics.com/) | Develop autonomous robotic kitchens to enhance sustainability for people, the planet and food service operators. Hiring engineers with experience in ROS ([Robot Control Engineer](https://discourse.ros.org/t/robot-control-engineer-remy-robotics-barcelona-spain/30267)). | 2018 |
| [Renesas Electronics](http://www.renesas.com) | Provide semiconductor solutions, including microcontrollers, SoC solutions, and analog and power devices. Sponsor of the [ROScon](https://roscon.ros.org/jp/2019/) JP 2019. ROSCon is a developers conference [^166]. | 2002 |
| [Renu Robotics](https://renurobotics.com) | Automating operations and maintenance for the solar industry. Develop and produce robots powered by [ROS](https://renurobotics.com/technology/) that mow, spray, clean, and inspect solar panels for utility-scale solar. Hiring engineers with experience in ROS ([Software Test Engineer](https://www.wayup.com/i-j-Renu-Robotics-758133283012643/)). | 2018 |
| [RGo Robotics](https://www.rgorobotics.ai) | Develop artificial perception technology that enables mobile robots to understand complex surroundings and operate autonomously just like humans. Hiring ROS engineers ([Solution Architect](https://www.rgorobotics.ai/solutionarchitect)). | 2018 |
| [RIF Robotics](https://www.rifrobotics.com) | Develop robots for hospital logistics. ROS2 drivers for RIF Robotics (see [`RIF-Robotics`](https://github.com/RIF-Robotics)). | 2020 |
| [RightHand Robotics](http://www.righthandrobotics.com/) | Provide end-to-end solutions that reduce the cost of e-commerce order-fulfillment of electronics, apparel, grocery. ROS drivers for RightHand Robotics (see [`RightHandRobotics`](https://github.com/RightHandRobotics)). | 2015 |
| [RIOS Intelligent Machines](http://www.rios.ai) | Create automated robotic workcells powered by AI for factories. Robotics and AI can be used to transform labor-intensive workplaces into smart factories. Hiring engineers with experience in ROS ([Machine Learning and Robotics Software Engineer](https://boards.greenhouse.io/riosintelligentmachines/jobs/4019999005)). | 2018 |
| [Rivelin Robotics](http://www.rivelinrobotics.com) | Creators of autonomous metal [finishing robots](https://rivelinrobotics.com/meet-the-robots) called [NetShape®](https://rivelinrobotics.com/learn-the-tech). Unlike manual labour & casting automation, Rivelin NetShape® is repeatable AND flexible. ROS-I and Noetic drivers (see [`RivelinRobotics`](https://github.com/RivelinRobotics)). | 2018 |
| [Robertshaw](http://www.robertshaw.com/) | They offer expertise in integrating electronics with our electro-mechanical and mechanical components to create more original product designs.production more efficient and cost-competitive. ROS used for industrial use cases. Participation in ROS-Industrial Conference 2022. | 1899 |
| [Roboception GmbH](https://roboception.com/en/) | Develop software and hardware products for real-time perception and localisation of robotic systems[^81]. ROS interface for the Roboception [rc_visard](https://roboception.com/en/rc_visard-en/) 3D sensor (see [`rc_visard_ros`](https://github.com/roboception/rc_visard_ros)). | 2015 |
| [RoboDeck](https://www.robo-deck.com/) | Outdoor manteinance robots powered by ROS and developed/controlled by ROS-ecosystem tools and extensions. Hiring engineers with experience in ROS ([Robotics Navigation and Computer Vision Engineer Internship](https://www.masaisrael.org/job/robotics-navigation-and-computer-vision-engineer/)). | 2022 |
| [RoboK](http://robok.ai) | Build cost-effective 3D sensing algorithms optimised for low-power computing platforms. ros2 vision_opencv contains packages to interface ROS 2 with OpenCV for RoboK (see [`RoboK2017/vision_opencv`](https://github.com/RoboK2017/vision_opencv)). | 2017 |
| [Robolaunch](https://www.robolaunch.io/) | Provide Cloud-Native Robotics Platform and mobile robots based on [ROS/2](https://robolaunch.io/) to bring scalable and GPU accelerated robotics solutions to life. ROS drivers for Robolaunch (see [`robolaunch`](https://github.com/robolaunch)). | 2020 |
| [Robosharing](http://robosharing.ai/) | Specialize in the development and production of delivery robots that can operate in autonomous mode as well as be manually controlled. Hiring engineers with experience in ROS ([Ros Developer](https://www.linkedin.com/jobs/view/3752618070)). | 2023 |
| [RoboSense](https://www.robosense.ai) | Is an environment perception solutions provider of autonomous driving LiDAR. RoboSense LiDAR SDK for ROS & ROS2 (see [`rslidar_sdk`](https://github.com/RoboSense-LiDAR/rslidar_sdk)). | 2014 |
| [Robotec.AI](https://robotec.ai/) | Develops high-tech solutions for automated and connected vehicles. Support in applying ROS and ROS2 middleware to develop robotic applications. Make LIDARs-based modules for localization, perception and motion planning. A ROS/ROS2 Multi-robot Simulator for Autonomous Vehicles (see [`simulator`](https://github.com/RobotecAI/simulator)), more ROS Drivers (see [`RobotecAI`](https://github.com/RobotecAI)). | 2019 |
| [RoboTech Vision](https://robotechvision.com/) | Develop advanced vision systems for robots. The company's primary focus is on developing and integrating cutting-edge computer vision technology into robots. ROS2 drivers for RoboTech Vision (see [`robotechvision`](https://github.com/robotechvision)). | 2013 |
| [Robotic Solutions, Inc.](http://www.roboticsolutionsinc.com) | A robotic systems integrator that specializes in Milling applications. ROS used for industrial use cases. Participation in ROS-Industrial Conference 2022. | 2004 |
| [Robotican](https://robotican.net/) | Develop cutting-edge robotics technology systems. Offer modular robotics systems for research applications, solutions building robotics and mechatronics systems. ROS Drivers for communicating with Robotican products (see [`robotican`](https://github.com/robotican)). | 2011 |
| [Robotiq](http://robotiq.com/) | Manufacture flexible, plug & play robotic grippers and sensors. There exists ROS community packages for Robotiq's technology (see [`robotiq`](https://github.com/ros-industrial/robotiq)). Also, Robotiq's team seems to be providing ROS support for their technology [^314]. | 2008 |
| [ROBOTIS](https://robotis.us/) | Developer of smart servos, industrial actuators, manipulators, open-source humanoid platforms, and educational robotic kits, like the [Turtlebot3](https://robotis.us/turtlebot-3/) (see [`turtlebot3`](https://github.com/ROBOTIS-GIT/turtlebot3)). The ROS packages for the different robots (see [`ROBOTIS-GIT`](https://github.com/ROBOTIS-GIT)). | 1999 |
| [Roboto AI](https://www.roboto.ai/) | Technology startup that accelerates the search, transformation, and analysis of robotics data. The company is building a first-of-its-kind copilot for robotics engineers who have to pour through petabytes of data to find edge cases and debug system failures. Sponsor of the [ROScon](https://roscon.ros.org/2023/) 2023. | 2022 |
| [Rocket Lab](http://www.rocketlabusa.com) | Deeliver launch services, spacecraft components, satellites and other spacecraft and on-orbit management. Hiring engineers with experience in ROS ([Senior Mechatronics Engineer](https://www.rocketlabusa.com/careers/positions/senior-mechatronics-engineer-silver-spring-maryland-united-states-5722065003/)). | 2006 |
| [Rockwell Automation](http://www.rockwellautomation.com/) | Provider of industrial automation and digital transformation technologies. Rockwell Automation [signs agreement to acquire](https://www.rockwellautomation.com/en-us/company/news/press-releases/Rockwell-Automation-signs-agreement-to-acquire-autonomous-robotics-leader-Clearpath-Robotics.html) autonomous robotics leader Clearpath Robotics | 1903 |
| [Rope Robotics](http://www.roperobotics.com) | Develop robotic solutions for inspection, maintenance, and repair of offshore energy installations such as wind turbines, oil rigs, and subsea pipelines. ROS drivers for Rope Robotics (see [`Rope-Robotics`](https://github.com/Rope-Robotics)). | 2016 |
| [ROSEN](https://www.rosen-group.com/global.html) | Public safety cutting-edge solutions in all areas of the integrity process chain. Using ROS and ROS 2 for developing robotic systems. Looking for ROS talent [^283] | 1981 |
| [Rover Robotics](https://roverrobotics.com/) | Make robotics hardware ready for research and development, compatible with ROS[^21] and cutting edge computers from NVIDIA and ADLINK. ROS Drivers for communicating with Rover Robotics products(see [`RoverRobotics`](https://github.com/RoverRobotics)). | 2018 |
| [RT Corporation](https://rt-net.jp/) | Is a robotics research company which has developed products such as robot humanoid, robot arm and a basic robot kit for learning and education. The company also indulges in developing custom service robots, PCB developing machines and AI for robots. ROS drivers for RT products[^61] (see [`rt-net`](https://github.com/rt-net)). | 2005 |
| [RTI (Real-Time Innovations)](https://www.rti.com/en/) | Provides the real-time communications platform for the IoT. Resources for [ROS 2](https://community.rti.com/ros) + DDS Interoperation | 1991 |
| [Rucha Yantra LLP](https://www.yantrallp.com/) | Manufacture mobile robotic systems for industrial and commercial applications. They provide automated material handling equipment in series called [RAGHAV](https://www.yantrallp.com/raghav.php), [SAEVK](https://www.yantrallp.com/saevk.php) and [VAMEN](https://www.yantrallp.com/vamen.php), each having different specifications & capacity as per industrial requirements. We also provide automated sansitization robots an autonomous delivery robots for healthcare. Hiring ROS engineers ([Robotics Engineer](https://www.yantrallp.com/job_description.php?jid=4)). | 2019 |
| [RUVU](https://ruvu.nl/) | Helps robot OEMs and integrators develop useful robot applications by providing [software](https://ruvu.nl/#software) and integration services. Offers software for localization, [navigation](https://ruvu.nl/#navigation), and environment perception. ROS Navigation stack (see [`navigation`](https://github.com/ruvu/navigation)). | 2017 |
| [Ryberg](https://www.ryberg.nl/) | Autonomous disinfection robots built with ROS. Hiring engineers with experience in ROS ([Lead Software Engineer](https://discourse.ros.org/t/lead-software-engineer-ryberg-robotics-delft-the-netherlands/27460)). | 2020 |
| [SafeAI](https://www.safeai.ai/) | Retrofit existing construction and mining vehicles with autonomous driving technology to enable safer, more productive and connected worksites. Hiring ROS engineers ([Software Engineer](https://www.instahyre.com/job-148020-software-engineer-behavior-planning-at-safeai-work-from-home/)). | 2018 |
| [SAGA ROBOTICS](https://sagarobotics.com/) | Develop autonomous robots capable of performing a wide variety of agricultural operations. [Thorvald platform](https://sagarobotics.com/thorvald-platform/) is a multi-functional robot,iIt can be used for autonomous tasks around the farm or vineyard. ROS drivers for SAGA ROBOTICS(see [`SAGARobotics`](https://github.com/SAGARobotics)). | 2016 |
| [Saha Robotik](http://saharobotik.com/) | Offer autonomous mobile service and delivery robots. ROS2 drivers for Saha Robotik (see [`SahaRobotik`](https://github.com/SahaRobotik)). | 2020 |
| [SARCOS](https://www.sarcos.com) | Industrial robotic systems that augment human performance (mostly exoeskeletons). Hiring engineers with experience in ROS ([Internship Robotic Computing Hardware](https://www.salary.com/job/sarcos-technology-and-robotics-corporation/internship-robotic-computing-hardware/j202210080225154789095)). | 1983 |
| [Sastra Robotics](http://www.sastrarobotics.com) | Build Robotic solutions for human-like automated functional testing of real physical devices. Since 2013, our products are being used by OEM’s/TIER-1’s and Service Providers to expedite test cycles and reduce the time-to-market for their products. ROS packages of SR-SCARA-HX Manipulator (see [`sr_scara_hx_ros`](https://github.com/sastrarobotics/sr_scara_hx_ros)). | 2013 |
| [SBG Systems](https://www.sbg-systems.com/) | Provide inertial sensors[^19] that use ROS package. ROS 2 driver for SBG Systems IMU/AHRS/INS units such as ELLIPSE or QUANTA (see [`sbg_ros2_driver`](https://github.com/SBG-Systems/sbg_ros2_driver))[^18]. | 2007 |
| [Schaeffler](https://www.schaeffler.com/fork/) | Automotive and industrial supplier. The company is [currently member](https://rosindustrial.org/current-members) of ROS-Industrial, is an open-source project that extends the advanced capabilities of ROS to manufacturing automation and robotics (see [`ros-industrial`](https://github.com/ros-industrial))[^154]. | 1975 |
| [Schindler Group](https://group.schindler.com/) | Involved in the integration of robotics and automation into its products and services, particularly in elevators and escalators. The company has developed technology that allows elevators to operate more efficiently and with greater intelligence. ROS used for industrial use cases. Participation in ROS-Industrial Conference 2022. | 1874 |
| [SCHUNK](https://www.schunk.com) | Develop clamping technology[^63] and gripping systems[^62]. Control via [ROS](https://schunk.com/gb/en/gripping-systems/special-gripper/svh/c/PGR_3161) driver for the [SVH](https://schunk.com/gb/en/gripping-systems/special-gripper/svh/c/PGR_3161) (5-finger servo-electric gripping hand) | 1945 |
| [Scythe Robotics](https://www.scytherobotics.com/) | Developer of an autonomous, fully electric commercial lawnmower helping to overcome the industry's labor crisis while simultaneously becoming the greenest option possible. Using [ROS](https://www.builtincolorado.com/company/scythe-robotics) in their robotics engineering activities. ROS drivers for Scythe Robotics (see [`scythe-robotics`](https://github.com/scythe-robotics)). | 2018 |
| [SDLE](https://sdle.es/) | Provides expertise in logistics, maintenance and R+D in military, defence, aeronautic and robotic fields. Company worker works as a [ROS developer](https://www.linkedin.com/in/luz-maria-hidalgo-garcia-659053b2/?originalSubdomain=es). | 2009 |
| [SEAOS Inc.](https://www.seaos.co.jp/) | They work on product license Application software and robot development. ROS drivers for SEAOS (see [`SeaosRobotics`](https://github.com/SeaosRobotics)). | 2000 |
| [Seasony](https://www.seasony.io/) | Fully autonomous vertical farming robots built with ROS. Hiring engineers with experience in ROS ([Robotics Simulation Intern](https://thehub.io/jobs/6422f263f0e2ce7c97694d02)). | 2018 |
| [SEC Co.](https://www.sec.co.jp/ja/index.html) | Provide real-time software and solutions in the social and public fields and cutting-edge fields. Sponsor of the [ROScon](https://roscon.ros.org/2018/) 2018. ROSCon is a developers conference [^169]. | 1970 |
| [Sedenius Engineering GmbH](http://www.sedenius.com/) | Automotive company that provides artificial intelligence, autonomous driving, and test drive support services.. Hiring ROS engineers ([Software developer (ROS)](https://www.linkedin.com/jobs/view/3674951608)). | 2012 |
| [Seed Robotics](http://www.seedrobotics.com) | Develop humanoid robots and assorted technologies such as robotic hands and machine learning. ROS Package for Seed Robotics' [FTS and SINGLEX tactile sensors](https://www.seedrobotics.com/fts-tactile-pressure-sensors) (see [`ros_fts`](https://github.com/seedrobotics/ros_fts)). | 2015 |
| [Seegrid](http://www.seegrid.com/) | Combines autonomous mobile robots and enterprise software for a complete, connected material handling automation solution. Hiring engineers with experience in ROS ([Senior Software Engineer](https://discourse.ros.org/t/seegrid-is-hiring-senior-software-engineer-c-perception/23693)). | 2003 |
| [Segway Robotics](https://robotics.segway.com/) | Develope first Robotic Mobile Platform (RMP) product line. Company has been continuously developing, and marketing robotic products. Its wide product lineup including the self-balancing robot Loomo, restaurant service robot, indoor delivery robot, outdoor delivery robot. ROS package for interfacing with Segway's RMP{50,100,[200](https://robotics.segway.com/product/rmp-lite-220/),400} series robotic platforms (see [`segway_rmp`](https://github.com/segwayrmp/segway_rmp)). | 2001 |
| [SENSYN ROBOTICS](https://www.sensyn-robotics.com) | Develop business solutions that combine robotics technology such as drones with advanced technology. In particular, by promoting automation and generalization. ros2 vision_opencv contains packages to interface ROS 2 with OpenCV for SENSYN ROBOTICS (see [`sensyn-robotics/vision_opencv-pub`](https://github.com/sensyn-robotics/vision_opencv-pub)). | 2015 |
| [Seoul Robotics](https://seoulrobotics.org) | Build deep learning based Lidar[^126] perception module for self-driving cars and robots. ROS drivers for Seoul Robotics(see [`seoulrobotics`](https://github.com/seoulrobotics)). | 2017 |
| [Septentrio](http://www.septentrio.com) | Design and manufacture high-precision OEM [GNSS receivers](https://www.septentrio.com/en/products/gnss-receivers) and surveying/GIS equipment. Used by prominent dredging, [UAV](https://www.septentrio.com/en/applications/uavandrobotics) and [agricultural](https://www.septentrio.com/en/applications/agriculture) companies. ROS 1 & 2 driver for Septentrio GNSS & INS receivers (see [`septentrio_gnss_driver`](https://github.com/septentrio-gnss/septentrio_gnss_driver)). | 2000 |
| [SEQSENSE](https://www.seqsense.com/) | Autonomous mobile [robot](https://www.seqsense.com/product/) and solution provider in Japan. Applying an original laser sensor technology, manufacturing and business development of new service robots. Sponsor of the [ROScon](https://roscon.ros.org/jp/2021/) JP 2021. ROSCon is a developers conference [^165]. Using ROS 1 internally in their systems. Thinking of moving to ROS 2. | 2016 |
| [SESTO Robotics](https://www.sestorobotics.com) | Develop autonomous mobile robots (AMRs) for industrial automation and logistics. Hiring ROS engineers ([Automation & Controls Engineer](https://www.sestorobotics.com/careers/)).| 2017 |
| [Sevensense Robotics](https://www.sevensense.ai/) | Accelerate robotics industry by enabling robots to safely and autonomously navigate. Alphasense Position[^112] is a multi-camera, industrial grade, Visual-SLAM-in-a-box solution for mobile robots. Source code of the ACP-ROS bridge for Alphasense Position (see [`alphasense_acp_bridge`](https://github.com/sevensense-robotics/alphasense_acp_bridge)). | 2018 |
| [Shadow Robot](https://www.shadowrobot.com/) | Desing and manufacture anthropomorphic robot hands[^17]. Shadow Robot’s humanoid hands are ROS programmable off the shelf. Drivers and controllers for Shadow Robot's EtherCAT Hand (see [`shadow-robot`](https://github.com/shadow-robot)). | 1987 |
| [Shenzhen EAI Technology](http://www.ydlidar.com) | Supply LiDAR sensors as well as intelligent robot mobile solution provider. Together with optimized robot mobile solution for autonomous mapping, real-time positioning, planning navigation, and automatic obstacle avoidance, EAI products has been widely used on service robots, robot vacuums, AGV, warehouse robots for commercial application, research and education. Ydlidar driver package under ros (see [`ydlidar_ros_driver`](https://github.com/YDLIDAR/ydlidar_ros_driver)). | 2015 |
| [Shield AI](https://shield.ai/) | Produce AI and autonomy stack for aircraft. ROS2 drivers for Shield AI (see [`shield-ai`](https://github.com/shield-ai)). | 2015 |
| [Shinkei](https://www.shinkei.systems/) | Build robotics that minimize fish waste and multiply shelf-life. Hiring engineers with experience in ROS ([Lead Hardware & Controls Engineer](https://www.workatastartup.com/jobs/62891)). | 2021 |
| [Shunya Ekai Technologies](https://shunyaekai.tech) | Build new age IoT devices and autonomous mobility bots to automate operations, solve challenges across various industries and improve human efficiency and lifestyle. Hiring ROS engineers ([Robotics Engineer/Trainee - Visual SLAM/ROS](https://www.linkedin.com/jobs/view/shunya-ekai-technologies-robotics-engineer-trainee-visual-slam-ros-at-shunya-ekai-technologies-3435996676/?originalSubdomain=in)). | 2020 |
| [SICK Sensor Intelligence](http://www.sick.com) | Provides sensor intelligence and application solutions that create the basis for controlling processes securely. Use ROS2 Driver to read the raw data from the SICK Scanners. Sick_scan is an open-source project to support the laser scanner of the company SICK using the ROS-framework (see [`sick_scan`](https://github.com/SICKAG/sick_scan))[^16]. | 1946 |
| [Siemens](https://www.siemens.com/global/en.html) | Is an engineering and electronics company that specializes in the fields of industry, energy, transportation, and healthcare. The company is [currently member](https://rosindustrial.org/current-members) of ROS-Industrial, is an open-source project that extends the advanced capabilities of ROS to manufacturing automation and robotics (see [`ros-industrial`](https://github.com/ros-industrial))[^155]. | 1847 |
| [Simbe Robotics](https://www.simberobotics.com/) | Builds automation solutions for the retail industry. Simbe’s first product, [Tally](https://www.simberobotics.com/platform/tally/), is the world’s first fully autonomous shelf auditing and analytics solution. Hiring ROS engineers ([Robotics Software Engineer](https://discourse.ros.org/t/robotics-software-engineer-simbe/25079)). | 2014 |
| [Simelabs](http://www.simelabs.com/) | Offer a software solution in business mobility, omnichannel, IoT, cloud, and blockchain technology. Also, offer solutions for robots. Hiring ROS engineers ([Robotics Engineer](https://www.simelabs.com/careers/robotics-engineer/)). | 2014 |
| [Skarv Technologies](http://www.skarvtech.com) | Developadvanced underwater robotic systems. The company leverages the latest advancements in robotics, artificial intelligence, and underwater technology to develop innovative solutions for various applications in the marine and offshore industries. Gazebo/ROS packages for underwater robotics simulation (see [`skarvtech/uuv_simulator`](https://github.com/skarvtech/uuv_simulator)). | 2019 |
| [Skilled Wound Care](https://www.skilledwoundcare.com/) | Provide wound care services. Hiring engineers with experience in ROS ([Robotics Engineer](https://boards.greenhouse.io/skilledwoundcare/jobs/5820901003?gh_src=6ff343cd3us)). | 2007 |
| [Skycatch](http://www.skycatch.com) | build technology to autonomously capture, process, and analyze 3D drone data. ROS drivers for Skycatch (see [`Skycatch`](https://github.com/Skycatch)). | 2013 |
| [Skyline Robotics](https://www.skylinerobotics.com/) | Provide building maintenance services using drones and robotic systems. They develop and operate a range of drones and robots that can perform tasks such as window cleaning, inspection, and maintenance on tall buildings, bridges and structures. ROS used for industrial use cases. Participation in ROS-Industrial Conference 2022. | 2017 |
| [SLAMcore](http://www.slamcore.com) | Provide location, mapping and perception software for robots and other autonomous machines to become spatially intelligent. ROS dockers for SLAMcore (see [`slamcore`](https://github.com/slamcore)). | 2016 |
| [Slip Robotics](https://sliprobotics.com/) | Produces autonomous mobile robots used for unloading trucks. Hiring engineers with experience in ROS ([Robotics Software Engineer](https://tarta.ai/j/3bdEiX8BUtwXGc8feysB-robotics-software-engineer-perception-computer-vision-ml-ai-at-slip-robotics)). | 2019 |
| [sliQue Robotics](https://slique.us/) | Produces mobile autonomous robots for delivery and cleaning applications. Hiring engineers with experience in ROS ([Senior ROS Developer](https://www.linkedin.com/jobs/view/senior-ros-developer-at-slique-robotics-3637036813/?originalSubdomain=in)). | 2022 |
| [Small Robot Company](http://www.smallrobotcompany.com/) | An agricultural start-up developing autonomous scanning and weeding robotics. Full field scans at a per-plant level are then visualised on a web interface which dictates job-planning and data analysis. Utilising ROS1 for communication, localization and state-control. Company worker works as a [ROS developer](https://www.smallrobotcompany.com/team). | 2017 |
| [smartmicro](https://www.smartmicro.com/) | Develop sensor solutions for traffic management and automotive industries. ROS2 drivers for smartmicro (see [`smartmicro radars`](https://discourse.ros.org/t/ros-2-driver-for-smartmicro-radars/23153)). | 1997 |
| [Smart Machine](http://www.oxin.nz) | Machinery manufacturing. Oxin, their flagship product a fully autonomous viticultural vehicle. PCL (Point Cloud Library) ROS interface stack for Smart Machine (see [`oxin-ros/perception_pcl`](https://github.com/oxin-ros/perception_pcl)). | 2018 |
| [Smart Robotics](https://smart-robotics.io) | Developer of cutting-edge robot solutions in the logistics space. Building [pick and place](https://smart-robotics.io/en/pick-and-place-robot/) robots using deep learning for vision and self-developed motion planning for robust and fast robotic solutions. Using ROS as the backbone for communication within the application. ROS drivers for Smart Robotics (see [`smart-robotics`](https://github.com/smart-robotics)). | 2015 |
| [Smile Robotics, Inc.](smilerobotics.com) | Develop automatic serving for restaurants. The company develops integrated type shelf transfer robot to prepare multiple shelves and possible to load items onto the shelves without waiting for the arrival of the robot. ROS drivers for Smile Robotics (see [`smilerobotics`](https://github.com/smilerobotics)). | 2019 |
| [SNCF](http://www.sncf.com) | Is a travel and logistic service provider company. SNCF runs and manages SNCF voyage. Sponsor of the [ROScon](https://roscon.ros.org/fr/2019/) 2019. ROSCon is a developers conference [^168]. | 1938 |
| [SoftBank Robotics](https://www.softbankrobotics.com/emea/en) | Create robots and explores and commercializes the robotic solutions. Pepper[^35] is social humanoid robot able to recognize faces and basic human emotions. ROS drivers for SoftBank Robotics (see [`softbankrobotics-research`](https://github.com/softbankrobotics-research)). | 2005 |
| [solectrix GmbH](http://www.solectrix.de) | Provide electronics and software solutions for a variety of applications. Offers a range of products and services, including electronics design, software development, and system integration. The company's products and services are used in a variety of industries, including automation, aerospace, and medical technology. The use of [proFRAME](https://solectrix.de/en/products/video-grabber-and-playback-systems/) in different SW platforms or working environments ([ROS](https://solectrix.de/en/products/video-grabber-and-playback-systems/)). | 2005 |
| [Solid State of Mind](https://solidstateofmind.com/) | Develop an artificial intelligence capable of adapting to real-time changes in the environment. A set of plugins for publishing and subscribing to sensor_msgs/Image topics in representations other than raw pixel data for Solid State of Mind (see [`Solid-State-of-Mind-Inc/image_transport_plugins`](https://github.com/Solid-State-of-Mind-Inc/image_transport_plugins)). | 2020 |
| [Soltrex](https://www.soltrex.io/) | Design and manufacture of solar-tracking systems for large-scale solar power projects. ROS used for industrial use cases. Participation in ROS-Industrial Conference 2022. | 2021 |
| [SOMATIC](http://getsomatic.com) | Make bathroom cleaning robots for commercial spaces like office buildings. A set of plugins for publishing and subscribing to sensor_msgs/Image topics in representations other than raw pixel data for SOMATIC (see [`getsomatic/image_transport_plugins`](https://github.com/getsomatic/image_transport_plugins)). | 2018 |
| [Sony](https://www.sony.com/en/) | Develop and manufacture audio, video, communications, and information technology products for the consumer and professional markets. Known to use ROS and ROS 2 in their latest robotics products (Aibo[^203] and Airpeak S1[^202]). Sponsor of the [ROScon](https://roscon.ros.org/) across multiple years. | 1946 |
| [Sorting Robotics](https://www.sortingrobotics.com/) | Build automation technology for cannabis and hemp manufacturers. Specializing in robotics, computer vision, and A.I.. Hiring engineers with experience in ROS ([Robotics Engineer](https://www.linkedin.com/jobs/view/3774506824)). | 2018 |
| [Southie Autonomy](http://southie.ai) | Provide contract packagers, manufacturers, and retailers with fast and flexible robot arm automation. Hiring engineers with experience in ROS ([Robotics Software Engineers](https://discourse.ros.org/t/southie-autonomy-is-looking-for-2-robotics-software-engineers/24244)). ROS drivers for Southie Autonomy (see [`SouthieAutonomy`](https://github.com/SouthieAutonomy)). | 2017 |
| [Southwest Research Institute](https://www.swri.org/industries/industrial-robotics-automation) | Develop automation and robotics solutions. Southwest Research Institute (SwRI) has used the ROS to develop complex intelligent systems. SwRI has leveraged ROS applications in the areas of: Industrial Robotics & Automation[^70], Robotics Research & Development[^71], ROS-Industrial[^72] and Automated Driving Systems & UGVs[^73]. (see [`swri-robotics`](https://github.com/swri-robotics/))[^74]. ROS drivers | 1947 |
| [SpaceTime Labs](https://www.spacetimelabs.ai/) | Artificial intelligence firm that develops and operates automated platforms. Hiring ROS engineers ([Senior Robotics Engineer](https://static1.squarespace.com/static/60b6393782659e2d1e1634c3/t/60b6848b5685206ff41de365/1622574219913/02+Robotics_Eng_vJan21-final.pdf)). | 2014 |
| [spinbotics](http://spinbotics.com) | Develop actuators for automation, manipulation, and manufacturing. ROS drivers for spinbotics (see [`Spinbotics-s-r-o`](https://github.com/Spinbotics-s-r-o)). | 2020 |
| [Spirit Aerosystems](https://www.spiritaero.com/) | Manufacture component parts and assemblies for commercial aircraft. The company is [currently member](https://rosindustrial.org/current-members) of ROS-Industrial, is an open-source project that extends the advanced capabilities of ROS to manufacturing automation and robotics (see [`ros-industrial`](https://github.com/ros-industrial))[^156]. | 2005 |
| [Square Robot Inc.](http://www.squarerobots.com) | Build robotic systems for submerged oil and gas inspections. An image processing pipeline for ROS for Square Robot Inc. (see [`squarerobot/image_pipeline`](https://github.com/squarerobot/image_pipeline)). | 2016 |
| [ST Robotics](http://strobotics.com) | Manufacture bench top robots. Their most popular products are the robotic arms[^66],ROS package providing moveit support for the ST Robotics arms, including controller configuration (see [`ST-ROBOTICS`](https://github.com/ST-ROBOTICS)). | 1986 |
| [Starship Technologies](http://www.starship.xyz) | Is a robotics company building fleets of self-driving delivery robots designed to deliver goods. C++ ROS bag reader (see [`bag_rdr`](https://github.com/starship-technologies/bag_rdr)). | 2014 |
| [Steatite Limited](http://www.steatite.co.uk) | Design and manufacture of rugged electronics and embedded systems. Steatite robotics controllers are optimised for use with [ROS2](https://www.steatite-embedded.co.uk/product_categories/robotics/robotic-solutions/) to simplify product development and reduce time to market. | 1938 |
| [Stellantis](https://www.stellantis.com) | World leading automakers and mobility provider. Seeking for ROS talent in their Cockpit AI team[^267]. Acquired aiMotive which uses ROS 2. | 2021 |
| [Stereolabs](https://www.stereolabs.com/) | Is the leading provider of 3D depth and motion sensing solutions based on stereo vision and artificial intelligence. From robots to drones and cars, Stereolabs empowers machines with the ability to see and understand the world in 3D. Stereo cameras for robotics: [ZED-X](https://www.stereolabs.com/zed-x/) - [ZED2i](https://www.stereolabs.com/zed-2i/). ROS[^310] and ROS2[^311] drivers, with examples and tutorials[^312][^313]. | 2010 |
| [STMicroelectronics](https://www.st.com/) | Semiconductor seller. [Micro-ROS module](https://discourse.ros.org/t/micro-ros-module-for-stm32cubemx/19487/1) for [STM32CubeMX](https://www.st.com/en/development-tools/stm32cubemx.html#overview). | 1987 |
| [Stogl Robotics](https://www.stoglrobotics.de/) | Is the consulting and engineering services company specialized on Robot Control, software and hardware integration, and use of ROS and ROS2. The company is [currently member](https://rosindustrial.org/current-members) of ROS-Industrial, is an open-source project that extends the advanced capabilities of ROS to manufacturing automation and robotics (see [`ros-industrial`](https://github.com/ros-industrial))[^153]. | 2021 |
| [Stratom](http://www.stratom.com) | Develop autonomous systems, including drones and robotics. The company use artificial intelligence, machine learning, and autonomous technology to develop innovative solutions for various industries, such as defense, logistics, and agriculture. ROS2 drivers for Stratom (see [`StratomInc`](https://github.com/StratomInc)). | 2001 |
| [StreetDrone](http://streetdrone.com/) | Full-stack autonomous vehicle technology company providing autonomous vehicles and software to customers. Hiring engineers with experience in ROS ([Robotics Software Engineer](https://discourse.ros.org/t/robotics-software-engineer-openings-streetdrone/32317)). | 2017 |
| [Sundance Multiprocessor Technology](http://www.sundance.com) | Provide embedded signal processing solutions. Sponsor of the [ROScon](https://roscon.ros.org/world/2020/) 2020. ROSCon is a developers conference [^167]. | 1989 |
| [Svenzva Robotics](https://www.svenzva.com/) | Specializes in design the hardware and software to power high-performance robotics. This broader accessibility facilitates rapid development towards robotic manipulation and automation. the premier product, Revel[^52], is a robotic manipulator. ROS Drivers for the svenzva arm product line (see [`svenzva_ros`](https://github.com/SvenzvaRobotics/svenzva_ros)). | 2017 |
| [Swift Navigation](https://www.swiftnav.com) | Offer hardware and software that makes GPS positioning technology available for [autonomous vehicle](https://www.swiftnav.com/automotive) and device guidance. ROS drivers for Swift Navigation (see [`swift-nav`](https://github.com/swift-nav)). | 2012 |
| [SyncBotic](https://syncbotic.com/) | Provides software-defined synchronization robot components and makes rugged robot controllers and research & education robot platforms that run ROS and ROS 2. | 2021 |
| [Synersight](https://www.synersight.es/) | Provide companies the automation of workflows with automated guided vehicles (AGV). Hiring ROS engineers ([ROS SOFTWARE Programmer](https://www.linkedin.com/jobs/view/3432959263/?eBP=NotAvailableFromMidTier&recommendedFlavor=ACTIVELY_HIRING_COMPANY&refId=u6O4P8%2Fg%2BO%2Fjt43vIHs14A%3D%3D&trackingId=HLhcsuutYvbFzIvxXUwzYg%3D%3D&trk=flagship3_search_srp_jobs)). | 2017 |
| [Synkar Autonomous](http://www.synkar.com) | Develop autonomous systems for various industries, such as transportation, logistics, and agriculture. ROS2 drivers for Synkar Autonomous (see [`Synkar`](https://github.com/Synkar)). | 2019 |
| [Systems Engineering Consultants Co., LTD.](http://www.sec.co.jp/english/index.html) | Specialist in real-time technology company that contribute to the safety and development of the networked society and strategic focus on network-based real-time services.. The company is [currently member](https://rosindustrial.org/current-members) of ROS-Industrial, is an open-source project that extends the advanced capabilities of ROS to manufacturing automation and robotics (see [`ros-industrial`](https://github.com/ros-industrial))[^152]. | 1970 |
| [Systemtrio](https://systemtrio.com/) | Provide software and hardware solutions for the transportation and logistics industries. ROS drivers for SystemTrio Robotics (see [`SystemTrio-Robotics`](https://github.com/SystemTrio-Robotics)). | 2014 |
| [TAILOS](https://tailos.com/) | Provide safe and cost-efficient automated solutions to the hospitality industry. Tailos decreases the time to clean a room. ROS Perception package (depthimage_to_laserscan) that converts a depth image to a laser scan for use with navigation and localization for TAILOS (see [`tailosinc/depthimage_to_laserscan`](https://github.com/tailosinc/depthimage_to_laserscan)). | 2015 |
| [Tangram Vision](https://www.tangramvision.com/) | Helps perception teams accelerate development of critical foundations like calibration, fusion, and sensor multiplexing. It can be used with service robots, industrial robots, drones, industrial automation, products with embedded vision. Hiring engineers with experience in ROS ([Perception Sensor Specialist](https://www.salary.com/job/tangram-vision/perception-sensor-specialist/j202204262228276837502)). | 2020 |
| [Tata Elxsi](https://www.tataelxsi.com) | Provider of design and technology services across industries including Automotive, Broadcast, Communications, and Healthcare. Hiring ROS engineers ([Automotive Application SW Developer](https://www.tataelxsi.com/careers-experience/tbu-019-automotive-application-sw-developer)). | 1989 |
| [TDK InvenSense](http://www.invensense.com) | Develop MEMS sensor platforms found in mobile, wearables, smart home, industrial, and automotive products. [TDK RoboKit1](https://invensense.tdk.com/news-media/tdk-shakes-up-robotics-market-with-next-generation-smartrobotics-platform-tdk-robokit1/) is a robotic platform enables quick prototyping and development for robotic developers, providing a robust hardware platform accompanied by full ROS1 and ROS2 compliant drivers and software algorithms. | 2003 |
| [TDS Technology](https://www.tdstech.com/) | Is an industrial automation company for the factory, marine, pharmaceutical, oil, and gas industries. The company is [currently member](https://rosindustrial.org/current-members) of ROS-Industrial, is an open-source project that extends the advanced capabilities of ROS to manufacturing automation and robotics (see [`ros-industrial`](https://github.com/ros-industrial))[^157]. | 1996 |
| [TechMagic](https://techmagic.co.jp/) | Integrates technologies such as machine learning of artificial intelligence with hardware to make robots intelligent that solve problems in the food industry. Repositories that provides ROS support (see [`TechMagicKK`](https://github.com/TechMagicKK)). | 2018 |
| [TECHMAN ROBOT](http://tm-robot.com/) | Is a collaborative robot and vision tech company helping businesses and people through robotic technology applications. Sponsor of the [ROScon](https://roscon.ros.org/2023/) 2023. | 2016 |
| [TelemeThing](https://telemething.com/) | Create components for an autonomous drone robotics platform for applications focusing on autonomous navigation, searching, tracking, and visualization. The onboard computer is carried on the UAV, running various AI and CV applications on [ROS](https://telemething.com/). | 2018 |
| [Tend.ai](https://tend.ai) | A smart cloud robotics software platform for industrial devices and robots. Hiring engineers with experience in ROS ([Computer Vision Engineer](https://discourse.ros.org/t/computer-vision-engineer-tend-ai/826)). | 2016 |
| [TerraClear](https://www.terraclear.com/) | Manufacturing of automation machinery[^14], an automated agricultural implement that clears rocks out of fields. Integrate aerial sensing, machine vision, high-accuracy GPS, and advanced robotics solution. URDF model for Gazebo integrated with ROS (see [`rosbot_description`](https://github.com/TerraClear/rosbot_description)). | 2017 |
| [teTra aviation corp](https://www.tetra-aviation.com) | Research, development, manufacture and sales of new aircraft. Hiring ROS engineers ([ROS Engineer](https://www.linkedin.com/jobs/view/3478665844/?eBP=JOB_SEARCH_ORGANIC&recommendedFlavor=ACTIVELY_HIRING_COMPANY&refId=TYJ6wUAy5prj5WNQ6Q4ETw%3D%3D&trackingId=1MZS1Q9EJ47xjXHk9a0TKA%3D%3D&trk=flagship3_search_srp_jobs)). | 2018 |
| [Tettix](https://www.tettix.info) | Designs and manufactures industrial automation systems mostly through AMRs. Acting mainly as a robot integrator using ROS and ROS 2. Hiring ROS engineers ([Robotics Software Engineer](https://www.tettix.info/robotics-software-engineer/)). | 2009 |
| [Texas Instruments](https://www.ti.com/applications/industrial/robotics.html) | Silicon vendor. Analog and embedded silicon technologies to build robots (microcontrollers, servo drive controllers, power management). | 1930 |
| [Textron](http://www.textron.com) | Multi-industry company focused on aircraft, defense, industrial and finance businesses. Using ROS in their robotics activities. Actitively seeking for ROS expertise[^244]. | 1923 |
| [The Construct](https://www.theconstructsim.com/) | Provider of both a platform and online robotics training courses around [ROS and ROS 2](https://www.theconstructsim.com/robotigniteacademy_learnros/ros-courses-library/) to grow your robotics skills. | 2015 |
| [The ePlane Company](http://www.eplane.ai) | Manufacturing of aviation and aerospace components. Hiring ROS engineers ([Navigation Engineer: Motion Planning](https://in.indeed.com/viewjob?jk=6cc6c5ce186dd93e&tk=1gppq1pd4k998800&from=serp&vjs=3)). | 2017 |
| [The Hi-Tech Robotic Systemz Ltd](http://www.thrsl.xyz) | Develop an [autonomous driver assistive systems](https://thrsl.xyz/technology_platform.html) for commercial and industrial vehicles. Hiring ROS engineers ([Software Deployment Engineer](https://www.naukri.com/job-listings-software-deployment-engineer-the-hi-tech-robotic-systemz-limited-ankleshwar-0-to-1-years-041122008297)). | 2014 |
| [TIER IV](https://tier4.jp/en/) | Building autonomous-driving cars with ROS and Autoware[^13]. Provides solutions for the commercialization of autonomous vehicles based on the Autoware software. Extension commands for rosbag in ROS 2 (see [`ros2bag_extensions`](https://github.com/tier4/ros2bag_extensions)). | 2015 |
| [TinyMobileRobots](https://tinymobilerobots.com/) | Specializes in high-precision outdoor robots that perform marking and stake-out. Combine advanced robotics software with artificial intelligence and high-precision technologies from the land surveying industry to make robots. Code for testing a mobile robot using ROS (see [`Frobit-Simple-Code-Snippets`](https://github.com/tinymobilerobots/Frobit-Simple-Code-Snippets)). | 2015 |
| [TIS inc.](https://www.tis.com/) | Offers solutions to improve urban management, help by robots and AI. Sponsor of the [ROScon](https://roscon.ros.org/jp/2018/) JP 2018. ROSCon is a developers conference [^170]. | 1971 |
| [TMC](https://tmc-employeneurship.com) | Business and tech consulting and services. ROS is used and seeked in their robotics engineering team[^263] | 2000 |
| [TokyoRobotics](https://robotics.tokyo/) | Create humanoid robots and robotic applications. Torobo is a robot developed to accelerate research into industrial applications of full-body humanoid robots[^11]. The robots software is based on ROS (see [`toroboeye_ros`](https://github.com/TokyoRobotics/toroboeye_ros))[^12]. | 2015 |
| [Tomahawk Robotics](https://tomahawkrobotics.com/) | Creates safe robotic solutions for unmanned systems in stressful and harsh environments. Tomahawk Robotics' Kinesis common control software integrates easily with unmanned systems built on [ROS/ROS2](https://twitter.com/TomahawkRobots/status/1491177615834730499). | 2018 |
| [Toposens](http://www.toposens.com) | Build robust and low-cost near-field 3D ultrasonic vision technology for robotics and autonomous vehicles. Custom ROS packages for prototyping with Toposens 3D ultrasound sensors. (see [`ros-packages`](https://gitlab.com/toposens/public/ros-packages))[^179]. | 2015 |
| [Torc Robotics](http://torc.ai/) | Develops automated Level 4, Class 8 trucks with Daimler. Provides end-to-end self-driving[^124] software for mobility, trucking, mining, and defense markets. Hiring engineers with experience in ROS ([Staff Automotive Software Engineer](https://wellfound.com/company/torc-robotics/jobs/2608551-staff-automotive-software-engineer-diagnostics-flashing)). | 2005 |
| [Tormach](https://www.tormach.com/) | Manufacture engineering products including CNC mills, routers, grinders, lathes and CNC accessories. The company is [currently member](https://rosindustrial.org/current-members) of ROS-Industrial, is an open-source project that extends the advanced capabilities of ROS to manufacturing automation and robotics (see [`ros-industrial`](https://github.com/ros-industrial))[^158]. | 2001 |
| [Toyota Research Institute](https://www.tri.global/) | Use artificial intelligence to make automobiles safer. By using ROS, to design the software of the robots and Gazebo for simulation tests. Hiring ROS engineers ([Software Engineer](https://discourse.ros.org/t/ros2-jobs-at-toyota-research-institute-cambridge-ma/5008)). | 2016 |
| [Toyota Woven Planet](https://www.woven-planet.global/en) | Group formed to expand and improve operations of Toyota Research Institute for the purpose of developing innovative products that will enable its vision, "Mobility to Love, Safety to Live”. Uses ROS 2 forks to develop autonomous platforms[^205][^206][^207] | 2021 |
| [TRACLabs](http://traclabs.com) | Develop control software, human-robot interfaces, electronic procedure systems, on-board satellite autonomous planning and execution solutions, and other solutions in the field of robotics and automation. Sponsor of the [ROScon](https://roscon.ros.org/world/2020/) 2020. ROSCon is a developers conference [^167]. ROS drivers for TRACLabs (see [`traclabs`](https://github.com/traclabs)) | 1994 |
| [Tractonomy Robotics](http://www.tractonomy.com/) | Develop autonomous mobile robot solutions to boost productivity and resilience in manufacturing and fulfillment logistics. Hiring engineers with experience in ROS ([Software Engineer](https://discourse.ros.org/t/full-time-position-software-engineer-robot-solutions/23390)). | 2019 |
| [Transforma Robotics](http://www.transformarobotics.com) | Develop modular collaborative robotic platforms with data analytics and artificial intelligence to enable safe, cost-effective, and efficient construction. They offer robots and robotic services to the construction industry: Quality Inspectionand Assessment Robot ([QuicaBot](https://www.transformarobotics.com/quicabot)) for construction quality assessment and Spray Painting Robot ([PictoBot](https://www.transformarobotics.com/pictobot)) for indoor wall painting. Hiring ROS engineers ([Software/Robotic Positions at TransformaRobotics](https://discourse.ros.org/t/software-robotic-positions-at-transformarobotics/2778/1)). | 2017 |
| [Trend Micro](www.trendmicro.com) | Create a secure environment for companies and individuals to exchange digital information with Internet content security and threat management solutions. The company is [currently member](https://rosindustrial.org/current-members) of ROS-Industrial, is an open-source project that extends the advanced capabilities of ROS to manufacturing automation and robotics (see [`ros-industrial`](https://github.com/ros-industrial))[^159]. | 1988 |
| [Trimble](http://www.trimble.com) | Develop positioning technology solutions for surveying, construction, agriculture, public safety and mapping purposes. Hiring engineers with experience in ROS ([Systems Engineer](https://dayton-oh.geebo.com/jobs-online/view/id/1037006150-systems-engineer-at-trimble-/)). | 1978 |
| [Triton Medical Robotics](https://tritonrobotics.com) | Medical robotics devices built with ROS that enables doctors to reach deep into human anatomy. Their robots aim to disrupt flexible endoscopy and set a new standard in outcomes for decades to come. Looking for ROS talent[^298] | 2016 |
| [Trossen Robotics](http://www.trossenrobotics.com/) | Focus on research and educational robotics who specializes in robotic manipulators / arms[^64]. ROS Packages for Trossen robotics products (see [`interbotix`](https://github.com/interbotix)). | 2005 |
| [Tryo Labs](https://tryolabs.com) | Machine learning consulting shop. Use ROS 2 in robotics projects[^234]. | 2009 |
| [Tsuk Arm Robotics](https://tsukarm.co.jp/) | Develop technologies such as robot arms ([xArm](https://tsukarm.co.jp/xarm-2)), robot vision, and IoT (Edge Computing), starting from the technology of "grabbing" objects with a robot arm. xARm users can extend their functions by providing SDKs for ROS [^173]. | 2021 |
| [TUGBOT](http://www.tugbot.com/) | Specializes in the development of Autonomous Mobile Robots (AMR) technology. Hiring engineers with experience in ROS ([ROS software developer](https://www.linkedin.com/jobs/view/3762477737)). | 2013 |
| [TuSimple](http://www.tusimple.com) | Is a self-driving truck company developing technology that allows them to drive from depot-to-depot without human intervention. ROS drivers for TuSimple [product](https://www.tusimple.com/product/) (see [`TuSimple`](https://github.com/TuSimple)). | 2015 |
| [T-Systems International GmbH](https://www.t-systems.com) | Provide system security to manage the data in a big data analysis method. The company is [currently member](https://rosindustrial.org/current-members) of ROS-Industrial, is an open-source project that extends the advanced capabilities of ROS to manufacturing automation and robotics (see [`ros-industrial`](https://github.com/ros-industrial))[^160]. | 2000 |
| [UBC AgroBot](https://ubcagrobot.com/) | The company hopes to help accelerate the implementation of automation and robotics in farming. Design a autonomous robot capable of traversing crop rows and performing targeted weed extermination, fertilization and collecting crop data. Incorporate ROS[^122] for communication between subsystems. | 2018 |
| [Ubica Robotics GmbH](https://www.ubica-robotics.eu) | Develop autonomous scanning robots for stationery retailers to create digital twins of branches. A set of plugins for publishing and subscribing to sensor_msgs/Image topics in representations other than raw pixel data for Ubica Robotics (see [`ubica-robotics/image_transport_plugins`](https://github.com/ubica-robotics/image_transport_plugins)). | 2020 |
| [Ubiquity Robotics](https://www.ubiquityrobotics.com/) | Build platforms with mobility, navigation, power and compute working. The most popular robot is Magni[^40], it is compatible with ROS (see [`magni_robot`](https://github.com/UbiquityRobotics/magni_robot)). | 2016 |
| [Udacity](http://www.udacity.com) | Develop an online learning platform offering programs in [artificial intelligence](https://www.udacity.com/enterprise/artificial-intelligence), machine learning, and robotics sector. ROS package for Udacity (see [`udacity`](https://github.com/udacity)). | 2011 |
| [Udelv](http://www.udelv.com/) | Focus on autonomous vehicles, paired with uPod delivery technology, enable long-range and high-capacity deliveries that are eco, business and customer-friendly. Hiring engineers with experience in ROS ([Robotics Software Engineer](https://boards.greenhouse.io/udelv/jobs/4185013003)). | 2017 |
| [UFACTORY](http://www.ufactory.cc) | Develop and manufacture robotics systems. Focus on creating robotic arms. ROS Drivers for communicating with UFACTORY robotics arms (see [`uArm-Developer`](https://github.com/uArm-Developer)). | 2013 |
| [Uhnder](http://www.uhnder.com/) | Develop a digital automotive radar-on-chip designed to automate systems for safety and better feedback response. Hiring ROS engineers ([Senior/Software Engineer](https://app.trinethire.com/companies/32235-uhnder-inc/jobs/64347-senior-software-engineer-system-integration?ref=www.uncrewedengineeringjobs.com)). | 2015 |
| [Unbox Robotics](https://unboxrobotics.com/) | Builds software-defined robotics systems to enable logistics players to automate and radically improve their operations on-demand in a limited footprint and capital. Hiring ROS engineers ([Robotics Software Engineer](https://www.spottabl.com/unboxrobotics/robotics-software-engineer-213974)). | 2019 |
| [Unibap AB](https://unibap.com) | Provide industrial automation and robotics solutions to a variety of industries. Focus on developing intelligent robotic systems that can be used in manufacturing, logistics, and other industrial applications. ROS drivers for Unibap AB (see [`Unibap`](https://github.com/Unibap)). | 2013 |
| [United Robotics Group](https://unitedrobotics.group) | Young service robotics companies into a unique ecosystem by bundling hardware and software expertise under one roof. Using ROS across companies in the group. Acquired Robotnik who's a very active user of ROS[^309] | 2019 |
| [United Robots](https://www.unitedrobots.co/) | Mobile robotic solutions for safer, cleaner and healthier spaces Uses ROS and Navigation stack to build their robots. Hiring engineers with experience in ROS ([Senior C++ Engineer](https://jobs.unitedrobots.co/jobs/1451848-senior-c-engineer)). | 2016 |
| [Unitree](https://www.unitree.com/) | Focus on the development, production and sales of high-performance quadruped robots[^83]. The company develop robot core components, motion control, robot perception, etc. ROS simulation packages for Unitree robots (see [`unitree_ros`](https://github.com/unitreerobotics/unitree_ros)). | 2016 |
| [Unity](https://unity.com/solutions/automotive-transportation-manufacturing/robotics) | Experimentation platform that create and model highly customizable real-world situations for robot design and simulations. This is a central repository for tools, tutorials, resources, and documentation about ROS in Unity (see [`Unity-Robotics-Hub`](https://github.com/Unity-Technologies/Unity-Robotics-Hub))[^8].| 2004 |
| [Universal Field Robots](http://universalfieldrobots.com.au/) | Is an engineering company that offers machine learning, artificial intelligence, research, and development services. ros2 vision_opencv contains packages to interface ROS 2 with OpenCV for Universal Field Robots (see [`universal-field-robots/vision_opencv`](https://github.com/universal-field-robots/vision_opencv)). | 2015 |
| [Universal Robots](https://www.universal-robots.com/) | Develop and sell industrial robots that automate industrial processes. The ROS driver works with all UR cobots that come with a CB3 or UR series. Hosts drivers for usage with the ROS (see [`UniversalRobots`](https://github.com/UniversalRobots))[^9] for CB3 and e-Series where RTDE is available. | 2005 |
| [Unmanned Life](http://unmanned.life) | Software platform for seamless orchestration of autonomous robotics. Unmanned Life software platform is capable of integrating different technologies, suchas AI, 5G and Edge computing with multiple robots such as drones and autonomous mobile robots (AMRs). ROS2 drivers for Unmanned Life (see [`umdlife`](https://github.com/umdlife)). | 2015 |
| [Urban Machine](http://www.urbanmachine.build) | Construction company that manufactures reclaims and co-creates locally sourced premium lumber products. Open3D analog to perception_pcl, containing conversion functions from Open3D to/from ROS types for Urban Machine (see [`UrbanMachine/perception_open3d`](https://github.com/UrbanMachine/perception_open3d)). | 2021 |
| [UVD Robots](https://uvd.blue-ocean-robotics.com/) | Autonomous disinfection robots using ultraviolet (UV) light. Hiring engineers with experience in ROS ([Robotics Software Developer](https://discourse.ros.org/t/robotics-software-developer-to-develop-uvd-robots-blue-ocean-robotics/24170)). | 2016 |
| [UVify](https://www.uvify.com/) | Is a developer and manufacturer of high-performance drones, autonomous technologies, and related hardware and software. ROS drivers for UVify (see [`uvify`](https://github.com/uvify)). | 2014 |
| [U POWER](https://upower.com/) | An automotive company that empowers clients and brings Car-as-a-Service (CaaS) capabilities to their projects. Hiring ROS engineers ([Sr. Embedded and System Software Engineer](https://www.linkedin.com/jobs/view/sr-embedded-and-system-software-engineer-adas-ad-middleware-ros2-dds-rmw-at-u-power-3618258703/)). | 2021 |
| [Vaarst](https://vaarst.com/) | Develop robotic analytic solutions designed for ocean applications. Vaarst uses computer vision technology to capture, and for storing, managing, and analyzing data, it features live streaming and geo-referencing capabilities. PCL (Point Cloud Library) ROS interface stack for Vaarst (see [`rovco/perception_pcl`](https://github.com/rovco/perception_pcl)). | 2015 |
| [Valeo](https://www.valeo.com/) | Company innovating in automotive electrification & micromobility. Partner to all automakers worldwide. Using ROS in their development and engineering services. Actively seeking for ROS talent[^248]. | 1923 |
| [Vayu Robotics](http://www.vayurobotics.com) | Develop automotive sensing, autonomous vehicles, and robotics technology. The company builds robotics platforms using bio-inspired sensing, scalable machine learning, and purposeful robotic design. ROS2 drivers for Vayu Robotics (see [`Vayu-Robotics`](https://github.com/Vayu-Robotics)). | 2022 |
| [Vecna Robotics](http://vecnarobotics.com) | Create and commercialize health care solutions in the areas of robotics, patient safety, infection control, and patient self-service. Hiring engineers with experience in ROS ([Senior Robotics Software Engineer](https://discourse.ros.org/t/senior-robotics-software-engineer/22466/1)). | 1998 |
| [VECROS](http://www.vecros.com) | Offer a range of products and services, including robotics consulting, design and development, and integration and deployment. Hiring ROS engineers ([Robotics Software Development](https://www.freshersworld.com/jobs/robotics-software-development-jobs-opening-in-vecros-technologies-private-limited-at-delhi-1531291)). | 2018 |
| [Vention](https://vention.io/) | Platform to Design, Automate, Order, and Deploy automated equipment. Looking for ROS talent for their automation equipment[^285]. | 2016 |
| [Viam](http://www.viam.com/) | Software platform that simplifies turning great ideas into smart machines in production. Viam lets users configure & build, code, manage & scale, and do more with their smart machine fleets in the cloud, all from a single platform. Sponsor of the [ROScon](https://roscon.ros.org/2023/) 2023. ROSCon is a developers conference [^379]. | 2020 |
| [Vicarious](http://vicarious.com) | Is a firm that develops general intelligence for robots using artificial intelligence and the computational principles of the brain[^10]. Wrappers, tools and additional API's for using ROS with the Gazebo simulator (see [`gazebo_ros_pkgs`](https://github.com/vicariousinc/gazebo_ros_pkgs)). | 2010 |
| [Visteon Corporation](http://www.visteon.com) | Design and manufactures vehicle cockpit electronics products, connected car & electrification solutions. Also, advanced driver assistance systems (ADAS). Hiring ROS engineers ([ADAS Systems Integration Engineer](https://www.disabledperson.com/jobs/34862126-adas-systems-integration-engineer)). | 2000 |
| [Vistion](https://vistion.si) | Hardware and software system integration. Machine vision systems. Use ROS across their offering[^236] | 2017 |
| [Volador FlyTech](http://www.voladorft.com/) | Provide drone solutions for various industries and applications. Their offerings include multi-rotor drones, software and hardware solutions, as well as services such as aerial photography and mapping. Hiring ROS engineers ([Robotics/UAS Control Engineer](https://www.linkedin.com/jobs/view/robotics-uas-control-engineer-at-volador-flytech-3440929186/?originalSubdomain=uk)). | 2018 |
| [Volvo Group](https://www.volvogroup.com/) | Manufacture trucks, buses, construction equipment, and marine and industrial engines. The company is [currently member](https://rosindustrial.org/current-members) of ROS-Industrial, is an open-source project that extends the advanced capabilities of ROS to manufacturing automation and robotics (see [`ros-industrial`](https://github.com/ros-industrial))[^161]. | 1927 |
| [Vortex Robotics](http://www.vortex-co.com) | Provide marine services like tank inspection, underwater filming, pipeline inspection and visual sonar inspection. ros2 vision_opencv contains packages to interface ROS 2 with OpenCV for Vortex Robotics (see [`VorteX-co/vision_opencv`](https://github.com/VorteX-co/vision_opencv)). | 2016 |
| [Wandelbots](http://www.wandelbots.com) | Develop software for industrial robots. Their flagship product is Wandelbot, a collaborative robot (cobot) that can be trained by non-experts to perform a wide range of tasks using a simple, gesture-based interface. ROS used for industrial use cases. Participation in ROS-Industrial Conference 2022. | 2017 |
| [WeGo-Robotics](https://wego-robotics.com) | Company building solutions using ROS and doing system integration with it for labs, as well as Proof of Concepts. System integration using [`MoveIt`](https://github.com/ros-planning/moveit) for controlling Manipulator or [`Navigation Stack`](https://github.com/ros-planning/navigation) for controlling Mobile Robot or both for Mobile Manipulator. Mainly based on `ROS`, but started to support `ROS2`. (2022) (see [`WeGo-Robotics`](https://github.com/WeGo-Robotics)). | 2016 |
| [Weston Robot](https://www.westonrobot.com/) | Develop integrated robotics solutions. The company's products include [exoskeletons](https://www.westonrobot.com/industrial-exoskeleton), [outdoor](https://www.westonrobot.com/ground-UGV) robots, robotic [arms](https://www.westonrobot.com/robot-arm) and hands, warehousing and logistics robots. ROS drivers (see [`westonrobot`](https://github.com/westonrobot)). | 2019 |
| [WHILL](https://whill.inc/jp/) | Design and create personal mobility products. The robots' software is based on ROS [^2]. A ROS package is available for R&D purposes (see [`ros_whill`](https://github.com/WHILL/ros_whill))[^3]. | 2012 |
| [Wind River](http://www.windriver.com) | Provide software and services for embedded systems and the Internet of Things (IoT). Their products include operating systems, development tools, and middleware for embedded devices, as well as software for edge computing, industrial automation, and autonomous systems. ROS used for industrial use cases. Participation in ROS-Industrial Conference 2022. | 1981 |
| [Woodside](www.woodside.com.au) | Is an exploration and production company. Woodside is the largest operator of oil and gas production in Australia and also it's largest independent dedicated oil and gas company. The company is [currently member](https://rosindustrial.org/current-members) of ROS-Industrial, is an open-source project that extends the advanced capabilities of ROS to manufacturing automation and robotics (see [`ros-industrial`](https://github.com/ros-industrial))[^162]. | 1954 |
| [Wyca Robotics](https://www.wyca-robotics.fr/) | Indoor autonomous mobile robot platform for system integrators that leverages ROS 2 subprojects[^212] for their Elodie robot. | 2015 |
| [Xaxxon Technologies](http://www.xaxxon.com/) | Develop a surveillance robot called the Oculus Prime[^60] which can be used for automated surveillance of private property. ROS packages for Oculus Prime Robot (see [`oculusprime_ros`](https://github.com/xaxxontech/oculusprime_ros)). | 2008 |
| [Xsens](http://www.xsens.com) | Is a company specializing in the field of 3D motion tracking technologies. ROS node driver for Xsens devices. (see [`xsens_mti_ros_node`](https://github.com/xsens/xsens_mti_ros_node)). | 2000 |
| [X - ENDER](https://www.x-ender.com/) | Develope decentralized control systems to enable full and functional autonomy over groups of heavy autonomous drones for agriculture and firefighting, autonomous tractors, smartcities management and much more. Hiring engineers with experience in ROS ([ROS developer](https://www.linkedin.com/jobs/view/3739750233)). | 2020 |
| [Yaak](http://www.yaak.ai) | Develop an autonomous driving platform. ros2 vision_opencv contains packages to interface ROS 2 with OpenCV for Yaak (see [`yaak-ai/vision_opencv`](https://github.com/yaak-ai/vision_opencv)). | 2020 |
| [Yaskawa Motoman](https://www.motoman.com) | Provided automation products and solutions for industry and robotic application. A wide range of robotic arms[^37]. [ROS 2](https://www.motoman.com/en-us/about/blog/ros-2-and-what-it-means-for-your-yaskawa-robotic-a) and what it means for your yaskawa robotic application development | 1989 |
| [YoGoKo](http://www.yogoko.com) | Is a communication solutions provider for the connected, cooperative & autonomous vehicles evolving in intelligent environments. Can be integrated into a diversity of hardware and software platforms designed by third parties. ,also includes autonomous vehicle development software ([ROS](https://www.yogoko.com/solutions/y-smart-technology-description/)). | 2014 |
| [Yokogawa](https://www.yokogawa.com/sg/) | Is a electrical engineering and software company, with businesses based on its measurement, control, and information technologies. The company is [currently member](https://rosindustrial.org/current-members) of ROS-Industrial, is an open-source project that extends the advanced capabilities of ROS to manufacturing automation and robotics (see [`ros-industrial`](https://github.com/ros-industrial))[^163]. | 1957 |
| [Yujin Robot](https://yujinrobot.com/) | Offer products and services such as factory automation, autonomous mobile robots, mobile platform demo kits for research purposes, LiDAR sensors, SLAM technology and navigation software. Tools and utilities for development with ROS build environments (see [`yujin_tools`](https://github.com/yujinrobot/yujin_tools)). | 1988 |
| [Yuman](https://yuman-robots.com/) | Develop autonomous mobile robots that automate the transport of small equipment in hospital wards that nurses need when caring for their patients. Hiring ROS engineers ([Robotics Engineer](https://thehub.io/jobs/6332b59560ad5faa531a1078)). | 2022 |
| [YZ Robot](http://www.yzrobot.cn/en/) | Specializes in the research and development of AI products. "ROSYZ Robot kits" are [ROS](http://www.yzrobot.cn/en/about-48-1.html) robot platforms which are prepared for students and robot fans who studying ROS and want to own a low cost high performance ROS open source platform. | 2014 |
| [Zebra Technologies](https://www.zebra.com/es/es.html) | Global leader in barcode printing and RTLS technology including printers, RFID, software and supplies. Sponsor of the [ROScon](https://roscon.ros.org/2022/). | 1969 |
| [Zendar](https://www.zendar.io/) | Develop high-definition [radar](https://www.zendar.io/technology) for autonomous vehicles. They offer [satellite radar systems](https://www.zendar.io/products) for cars, agriculture, robots and trucks. ROS drivers for Zendar radars (see [`ZendarInc`](https://github.com/ZendarInc)). | 2017 |
| [Zeropoint Robotics](https://www.zeropointrobotics.com/) | Design and develop Autonomous Mobile Robots that collaborate with humans. Hiring ROS engineers ([Robotics Software Engineer](https://www.freshersworld.com/jobs/robotics-software-engineer-jobs-in-bangalore-zeropoint-robotics-pvt-ltd-940633)). | 2019 |
| [ZettaScale Technology](https://www.zettascale.tech) | The company develops open source communication middleware that underpins next-generation robotics, transportation and mission critical applications. Sponsor of the [ROScon](https://roscon.ros.org/2022/). | 2022 |
| [Zhen Robotics](http://www.zhenrobot.com/) | Develop package for delivery robots. Hiring ROS engineers ([ROS Development Engineer](http://www.zhenrobot.com/career_en.html)). | 2016 |
| [ZF](https://www.zf.com/mobile/en/homepage/homepage.html) | Company supplies systems for passenger cars, commercial vehicles and industrial technology in four technology domains: Vehicle Motion Control, Integrated Safety, Automated Driving, and Electric Mobility. They are known to be using ROS 2 forks[^210] to develop software. | 1915 |
| [Zipline](https://www.flyzipline.com/) | Design, manufacture and operate drones to deliver vital medical products. Hiring engineers with experience in ROS ([Junior Embedded Systems Software Engineer](https://www.wayup.com/i-j-ZipLine-307782695030606/)). | 2014 |
| [Zivid](https://www.zivid.com) | Provide of industrial 3D machine vision cameras and vision software for autonomous industrial robot cells, collaborative robot (cobot) cells and other industrial automation systems. ROS driver for Zivid 3D cameras (see [`zivid/zivid-ros`](https://github.com/zivid/zivid-ros)). | 2015 |
| [ZMP](https://www.zmp.co.jp/en) | Provide robot infrastructure, autonomous vehicles[^53], automotive technology and sensing technology[^54]. ROS Nodes for RoboCar[^55] (see [`robocar110_ros`](https://github.com/zmp/robocar110_ros)). | 2001 |
| [Zoox](https://www.zoox.com/) | Develop a fully autonomous fleet specifically designed to be driven by AI. Hiring engineers with experience in ROS ([Senior Staff Software Engineer - SLAM](https://zoox.com/careers/3629518d-d10a-4fe9-a797-58120c439349)). | 2014 |
| [ZVISION](http://www.zvision.xyz) | Provide [automotive-grade](http://www.zvision.xyz/en/Solution/index.aspx) solid-state LiDAR solution for autonomous driving applications. ROS driver for ZVISION Lidar (see [`zvision_ros_driver`](https://github.com/ZVISION-lidar/zvision_ros_driver)). | 2017 |
| [4am Robotics](https://www.4am-robotics.com/en/) | Develop mobile robot assistants designed to assist humans in their daily lives. Hiring engineers with experience in ROS ([Softwareentwickler ROS Mobile Robotik (m/w/d)](https://www.linkedin.com/jobs/view/3724898600)). | 2022 |

### Companies acquired, closed or inactive

| Company | Description | Year Founded | Reason |
|---------|-------------|--------------|--------|
| [Acutronic Robotics](https://web.archive.org/web/20190630193757/https://acutronicrobotics.com/) | DARPA and Sony backed company offering modularity for industrial robots. ROS 2-native hardware components for robots. System integration. H-ROS (Hardware Robot Operating System). | 2016 | Closed, lack of funding[^188] (2019) |
| [aiMotive](https://aimotive.com/) | Deliver software, tools and hardware products complemented by proprietary [data management tools](https://aimotive.com/solutions) to use in [automated driving](https://aimotive.com/aidata). [aiSim](https://aimotive.com/aisim) is a ASIL-D certified simulator tool, has integrated ROS2[^127]. | 2015 | **Acquired** (2022, Stellantis) [^286] [^287]|
| [Aldebaran Robotics](https://web.archive.org/web/20160101095830/https://www.aldebaran.com/en) | Aldebaran Robotics designs, manufactures, and sells autonomous humanoid robots for entertainment purposes.| 2005 | **Acquired** (2012, Softbank Robotics, 100M USD) |
| [Argo AI](http://www.argo.ai) | Ford and VW-backed company that offered autonomy products and services. Argo designs its Autonomy Platform and Solutions to support autonomous [ridesharing](https://www.argo.ai/services/#built-to-drive) and goods [delivery](https://www.argo.ai/services/#built-to-deliver). Hiring ROS engineers ([Hardware, Radar Integration Engineer](https://boards.greenhouse.io/argo/jobs/4320653)). | 2016 | Closed, investors shift resources to developing advanced driver assistance systems (Level 2 and 3 autonomy), and not autonomous vehicle technology (Level 4 autonomy)[^272][^273] (2022) |
| [AutonomousStuff](https://autonomoustuff.com/) | Autonomy-enabling technologies and world class services. Using ROS across products and services. Involved in various projects with architectures built with ROS. Authors of various ROS drivers. | 2010 | **Acquired** (2018, Hexagon) |
| [Clearpath Robotics](https://clearpathrobotics.com/) | Manufacturer of robot development platforms, each with ROS-support. Focused on unmanned ground vehicles, unmanned surface vehicles (waterborne), and other industrial vehicles. | 2009 | **Acquired** (2023, Rockwell Automation) [^378] |
| [Cruise](https://www.getcruise.com/) | Build self-driving vehicles using ROS. Various community contributions, hiring actively for ROS expertise. | 2013 | **Acquired**[^306] (2016, General Motors) |
| [Drag&bot](http://www.dragandbot.com) | No-code robot programming software for flexible use of industrial robots with an easy-to-use UI. drag&bot uses an abstracted interface called [`robot-movemvent-interface (RMI)`](https://github.com/dragandbot/dnb_robot_movement_interface) to command any industrial robot and kinematic in a unified way. ROS Noetic is currently the used distribution. The `tf` library aswell as the ROSBridge are core components for the software. Moreover drag&bot can be tested in the cloud for free using this link for [`registration`](https://www.dragandbot.com/get-started/robot-simulation/). | 2017 | **Acquired**[^266] (2022, KEBA) |
| [Erle Robotics](https://web.archive.org/web/20161124120233/http://erlerobotics.com/) | Linux and ROS-based autopilots for drones. DIY robotic kits | 2014 | **Acquired** (2016, Acutronic Robotics) |
| [Fetch Robotics](https://fetchrobotics.com/) | Autonomous Mobile Robots (AMRs) for the warehousing. Designed with the ROS framework (see [`fetch_ros`](https://github.com/fetchrobotics/fetch_ros))[^104]. | 2014 | **Acquired**[^189] (2021, Zebra Technologies, $290M[^305]) |
| [iRobot](https://www.irobot.com/) | Design and builds consumer robots, include mapping and navigation systems. Launched educational robot platform that support for ROS 2 [^94] | 1990 | **Acquired**[^302] (2021, Amazon, 1.7B USD) |
| [Luxoft](https://www.luxoft.com/) | Luxoft is the design, data and development arm of DXC Technology, providing bespoke, end-to-end technology solutions for mission critical systems, products and services. Hiring ROS engineers ([Senior C++ Automotive Software Developer](https://career.luxoft.com/job/senior-c-automotive-software-developer/337285/)). | 2000 | **Acquired** (2019, DXC Technology[^299]) |
| [Modbot](https://www.modbot.com) | ROS-enabled[^184][^185] innovative modular robotics platforms | 2014 | *Inactive* |
| [Open Robotics](https://www.openrobotics.org/) | ROS and ROS 2 maintainers. Engineering services in robotics for creating both hardware and software solutions | 2012 | **Acquired** (2022, Intrinsic[^301]) |
| [Planck Aerosystems](https://www.planckaero.com/) | Designs and builds autonomy and navigation solutions for unmanned systems using various open open source robotics technologies, including ROS and Gazebo. Job offers requiring ROS and Gazebo *knowhow* [^195]. | 2014 | **Acquired** (2022, AeroVironment[^196]) |
| [Rethink Robotics](http://www.rethinkrobotics.com) | Created ROS-based collaborative compliant robotic arms for use in manufacturing facilities[^41] (see [`RethinkRobotics`](https://github.com/RethinkRobotics)). | 2008 | Closed (2018), short on cash as its sales failed to meet expectations, later integrated in HAHN Group |
| [Robotnik](https://robotnik.eu/) | Manufacturer of service robots built with ROS. They design mobile robots, UGVs, and other mobile robots for industrial and logistics applications. ROS Drivers for [collaborative robots](https://robotnik.eu/products/) (see [`RobotnikAutomation`](https://github.com/RobotnikAutomation)). | 2002 | **Acquired** (2023, United Robotics Group[^309]) |
| [Rocos](https://web.archive.org/web/20200723041448/https://www.rocos.io/) | Cloud platform to build and manage your robot operations. Offered ROS 2 connectors. | 2017 | **Acquired** (2021, DroneDeploy) |
| [Rovenso](https://www.rovenso.com/) | Autonomous Robots for Security and Safety Monitoring of Industrial Sites. Using ROS to build their autonomy stack. | 2016 | Closed, out of cash[^259] (2022) |
| [TechnoYantra](https://www.technoyantra.com/) | Developing robotic technologies using ROS for various applications like mapping. navigation, SLAM, image processing, etc... TortoiseBot is an ROS-based open-sourced mobile robot applications (see [`tortoisebot`](https://github.com/TechnoYantra/tortoisebot)). | 2020 | **Acquired** (2022, Acceleration Robotics[^300]) |
| [Unbounded Robotics](https://web.archive.org/web/20131030012058/http://unboundedrobotics.com/) | Building the next generation of advanced, affordable, mobile manipulation platforms with ROS | 2013 | Closed (2014), issues with the Willow Garage spin-off agreement which prevented them from raising an A round |
| [Verb Surgical](https://www.linkedin.com/company/verb-surgical/about/) | Building the next generation of advanced, affordable, mobile manipulation platforms with ROS | 2015 | **Acquired**[^189] (2019, Johnson & Johnson) |
| [Waypoint Robotics](http://waypointrobotics.com) | Build autonomous mobile robots. In addition to designing the robots, they also offer accessories. ROSBridge to use interfaces on Waypoint Robotics robots (see [`waypoint-rosbridge-ros-api`](https://github.com/waypointrobotics/waypoint-rosbridge-ros-api)). | 2016 | **Acquired** (2021, Locus Robotics) |
| [Wind River](https://www.windriver.com/) | A global leader in delivering software for mission-critical intelligent systems. Behind VxWorks RTOS. Contributor to the ROS community and member of the TSC | 1981 | **Acquired** (2022, Aptiv, $3.5 billion[^303][^304]) |
| [Xilinx](https://www.xilinx.com) | Adaptive computing leader. Creator of the FPGA. Various robotics silicon solutions featuring CPUs and FPGAs. Kria SOMs robotics strategy was built around ROS 2[^218] | 1984 | **Acquired** (2021, AMD, $35 billion[^219]) |
| [5D Robotics](https://web.archive.org/web/20180319195556/https://5drobotics.com/) | 5D Robotics is a software company that accelerates human productivity and safety in an evolving, dynamic world. | 2009 | **Acquired** (2018, Humatics) |
| [6 River Systems](https://6river.com/) | Manufacturer of autonomous mobile robots (AMRs) built with ROS, artificial intelligence and operational experience. Through the use of robotics[^4], they make warehouses more efficient[^5].| 2015 | **Acquired** (2019, Shopify, 450M USD) |

### Contribute

Send a Pull Request with additions, modifications or removals. For new contributions, **please indicate how you're using ROS** (which distro you're using, which packages, etc.). Make sure to hint how you're related to the organization if suggesting a relevant change.

### Criteria

The criteria to be included in the list is as follows:
- The company must be known to use ROS or ROS 2 for development, to create products, to offer services or who ships ROS with or as part of their product(s).
- Ideally, there should be a public reference to the company using ROS or ROS 2. This can be a blog post, a press release, a video, a tweet, a GitHub repository, a LinkedIn job offer highlighting their ROS focus, etc.

**NOTE**: *Third party ROS drivers (e.g. community) or technology connectors (e.g. bridges) for a particular company's product or technology should not considered a reference to the company using ROS or ROS 2*.

### `ROS` stacks

Lists companies known to use popular ROS stacks.

#### Navigation
Lists companies known to use the ROS Navigation stack and ROS 2's Nav2 framework.

| Company | Description | Year Founded|
|---------|-------------|-------------|
| [ADLATUS Robotics GmbH](http://www.adlatus-robotics.com) | Uses the Nav2 stack for autonomous mobile robots to use in industrial environments such as manufacturing, logistics, and warehousing (see [`adlatusrobotics/navigation2`](https://github.com/adlatusrobotics/navigation2)). | 2015 |
| [ADLINK Technology](https://www.adlinktech.com/en/index) | ADLINK is using Navigation stack in their products like the [ROScube-X series](https://www.adlinktech.com/Products/Download.ashx?type=MDownload&isDatasheet=yes&file=1783%5CROScube-X_series_DS.pdf) of embedded systems for robots. ADLINK offers a [AMR visual SLAM navigation solution](https://www.adlinktech.com/en/kudan-amr-visual-slam). Empowering tracking in Autonomous Mobile Robots (AMRs). ROS2 Navigation (see [`Adlink-ROS/navigation2`](https://github.com/Adlink-ROS/navigation2)). | 1995 |
| [Angsa Robotics](https://angsa-robotics.com) | Uses ROS and Navigation stack to build their robots (see [`angsa-robotics/navigation2`](https://github.com/angsa-robotics/navigation2)). | 2019 |
| [ANYbotics](https://www.anybotics.com/) | The company uses the ROS Navigation stack to enable their robots to navigate autonomously in complex environments. ROS Navigation stack (see [`ANYbotics/navigation_ros`](https://github.com/ANYbotics/navigation_ros)). | 2016 |
| [A&K Robotics](http://www.AandKrobotics.com) | Uses the ROS Navigation stack to enable their robots to navigate autonomously in indoor environments. ROS Navigation stack (see [`akrobotics/navigation`](https://github.com/akrobotics/navigation)). | 2015 |
| [Badger Technologies](http://www.badger-technologies.com/) | Badger Technologies uses this stack to enable their robots to navigate around the store and avoid obstacles, while also localizing themselves in the store's map. ROS Navigation stack (see [`BadgerTechnologies/navigation`](https://github.com/BadgerTechnologies/navigation)). | 2017 |
| [Beta Robots](https://beta-robots.com/) | Use the ROS Navigation stack to provide autonomous navigation capabilities to their mobile robots. ROS Navigation stack (see [`beta-robots/navigation`](https://github.com/beta-robots/navigation)). | 2016 |
| [Birds Eye Robotics](https://www.birdseyerobotics.com) | A list of robots using ROS Navigation stack and ROS 2's Nav2 framework (see [`Robots`](https://navigation.ros.org/about/robots.html)). | 2021 |
| [BlueSpace.ai](http://www.bluespace.ai) | Uses the Nav2 Stack to test and validate their autonomous navigation systems in simulated and real-world environments (see [`njtech-robomaster/navigation2`](https://github.com/njtech-robomaster/navigation2)). | 2019 |
| [Bluewhale Robot](http://www.bwbot.org) | The company uses the ROS Navigation stack to provide advanced navigation capabilities to its robots. ROS Navigation stack (see [`BluewhaleRobot/navigation`](https://github.com/BluewhaleRobot/navigation)). | 2015 |
| [Bosch](https://www.bosch.com/) | Uses the Nav2 stack, an open-source robotic navigation stack, in their autonomous systems, such as AMRs and self-driving cars (see [`boschresearch/navigation2`](https://github.com/boschresearch/navigation2)). | 1886 |
| [BotsAndUs](https://www.botsandus.com/) | They use the Nav2 stack to help their robots navigate autonomously in various environments. (see [`botsandus/navigation2`](https://github.com/botsandus/navigation2)). | 2015 |
| [Brisa Robótica](https://www.brisa.tech/) | Automate existing vehicles or develop new ones. Uses ROS and Navigation stack to build their robots (see [`brisa-robotics/navigation2`](https://github.com/brisa-robotics/navigation2)). | 2018 |
| [Coalescent Mobile Robotics](https://cm-robotics.com/) | Uses the Nav2 stack to help their robots navigate through various environments (see [`cmrobotics/navigation2`](https://github.com/cmrobotics/navigation2)). | 2018 |
| [Dexory](http://dexory.com) | A list of robots using ROS Navigation stack and ROS 2's Nav2 framework (see [`Robots`](https://navigation.ros.org/about/robots.html)). | 2015 |
| [Dorabot](https://www.dorabot.com/) | The company uses the ROS Navigation stack to enable its robots to navigate through indoor environments and perform tasks such as transporting goods, picking and placing items, and inventory management. ROS Navigation stack (see [`dorabot/navigation`](https://github.com/dorabot/navigation)). | 2015 |
| [Dyno Robotics](http://www.dynorobotics.se) | Uses ROS and Navigation stack to build their robots (see [`DynoRobotics/navigation2`](https://github.com/DynoRobotics/navigation2)). | 2018 |
| [Elroy Air](http://elroyair.com) | Uses ROS and Navigation stack to build their robots (see [`Robots`](https://navigation.ros.org/about/robots.html)). | 2016 |
| [FastSense](http://www.fastsense.tech) | Uses the Nav2 Stack to develop and implement navigation capabilities in their products (see [`FastSense/navigation2`](https://github.com/FastSense/navigation2)). | 2017 |
| [FireFly Automatix](https://fireflyautomatix.com) | Uses Nav2 Stack to develop and implement autonomous navigation capabilities in their products (see [`fireflyautomatix/navigation2`](https://github.com/fireflyautomatix/navigation2)). | 2010 |
| [FloMobility](https://flomobility.com) | Build autonomous lawnmowers, for the communication between electronics they are using ROS and [Navigation stack](https://www.linkedin.com/posts/mohansivam_we-at-flo-mobility-are-looking-for-ros-interns-activity-7022084995691290624-RoFV/?originalSubdomain=in). | 2019|
| [GITAI](http://gitai.tech/) | Uses ROS and Navigation stack to build their robots. ROS Navigation stack (see [`GITAI/navigation`](https://github.com/GITAI/navigation)). | 2016 |
| [Helgen Technologies](https://www.helgen.tech) | They use the Nav2 Stack to create autonomous navigation solutions for unmanned aerial vehicles (UAVs), autonomous underwater vehicles (AUVs), and ground vehicles (see [`Helgen-Tech/navigation2`](https://github.com/Helgen-Tech/navigation2)). | 2021 |
| [Hyundai](https://www.hyundai.com/eu.html) | Uses the Nav2 Stack to develop and implement autonomous navigation capabilities in their vehicles. This includes using the stack to process sensor data, plan and execute safe and efficient routes, and make decisions in real-time to navigate the vehicle through its environment (see [`HYUNDAI-Robotics-Autonomous-Engineering/navigation2`](https://github.com/HYUNDAI-Robotics-Autonomous-Engineering/navigation2)). | 2000 |
| [InDro Robotics](https://indrorobotics.ca/) | Uses ROS and Navigation stack to build their robots (see [`indro-robotics/navigation2_velocity_smoother`](https://github.com/indro-robotics/navigation2_velocity_smoother)) | 2014 |
| [Intermodalics](http://www.intermodalics.eu) | Use the ROS Navigation stack to develop autonomous navigation capabilities for mobile robots. ROS Navigation stack (see [`Intermodalics/navigation`](https://github.com/Intermodalics/navigation)). | 2010 |
| [Kiwibot](https://www.kiwibot.com/) | Uses Nav2 in their delivery robots to enable them to navigate and move around in the environment safely and efficiently (see [`kiwicampus/navigation2`](https://github.com/kiwicampus/navigation2)). | 2017 |
| [Locus Robotics](https://locusrobotics.com/industry_solutions/industrial/) | Uses Nav2 in their autonomous mobile robots, which are designed for warehouse automation. These robots use the Nav2 stack to localize themselves in the warehouse environment, map the warehouse, and plan and execute safe and efficient paths to move products from one location to another. (see [`locusrobotics/robot_navigation`](https://github.com/locusrobotics/robot_navigation)). | 2014 |
| [Magazino GmbH](https://www.magazino.eu/?lang=en) | Magazino GmbH incorporates the ROS Navigation stack into their robot systems to achieve autonomous navigation and obstacle avoidance capabilities. ROS Navigation stack (see [`magazino/navigation`](https://github.com/magazino/navigation)). | 2014 |
| [Motius](https://motius.de/) | Uses Nav2 stack, a collection of open-source software tools and libraries, to develop and implement autonomous navigation capabilities for their clients. (see [`motius/navigation2`](https://github.com/motius/navigation2)). | 2013 |
| [Neobotix GmbH](https://www.neobotix-robots.com/homepage) | Uses the Nav2 Stack to integrate with other systems, such as mapping and localization tools, to further enhance the robot's navigation capabilities (see [`neobotix/navigation2`](https://github.com/neobotix/navigation2)). | 2010 |
| [Nexuni Co. Ltd.](www.nexuni.com) | Uses ROS and Navigation stack to build their robots (see [`nexuni/navigation2`](https://github.com/nexuni/navigation2)). | 2019 |
| [Nobleo Technology](https://nobleo-technology.nl/) | Uses the Nav2 Stackto develop and implement navigation capabilities in their sensors (see [`nobleo/navigation2`](https://github.com/nobleo/navigation2)). | 2011 |
| [PAL Robotics](https://pal-robotics.com/) | Uses the Nav2 stack as a part of their navigation software system for autonomous robots (see [`pal-robotics-forks/navigation2`](https://github.com/pal-robotics-forks/navigation2)). | 2004 |
| [Peppermint Robots](https://getpeppermint.co/) | Uses the Nav2 stack for its robot navigation and control system. Peppermint Robots leverages the Nav2 stack to provide accurate and reliable navigation for its robots (see [`Peppermint-Robots/navigation2`](https://github.com/Peppermint-Robots/navigation2)). | 2019 |
| [Pixel Robotics](https://www.pixel-robotics.eu/) | The Nav2 Stack is integrated into Pixel Robotics' software platform and is used to ensure that its robots are able to navigate and interact with the environment in a safe and efficient manner (see [`pixel-robotics/navigation2`](https://github.com/pixel-robotics/navigation2)). | 2020 |
| [Polymath Robotics](https://polymathrobotics.com) | A list of robots using ROS Navigation stack and ROS 2's Nav2 framework (see [`Robots`](https://navigation.ros.org/about/robots.html)). | 2021 |
| [Quasi Robotics](https://quasi.ai) | Uses the Nav2 Stack as a navigation and control platform for its autonomous robots (see [`quasi-robotics/navigation2`](https://github.com/quasi-robotics/navigation2)).| 2017 |
| [Reebot](https://reebot.tech/) | Lots of experience on the first ROS Nav Stack and starting to use ROS 2's Nav2 framework for customers | 2021 |
| [Relay Robotics](https://www.relayrobotics.com/) | Uses the ROS Navigation stack to enable their robots to navigate autonomously. ROS Navigation stack (see [`savioke/navigation`](https://github.com/savioke/navigation)). | 2013 |
| [REMAKE.AI](https://remake.ai/) | [Uses](https://github.com/kaiaai/kaiaai/) the ROS2 LiDAR/LDS-enabled Nav2 stack) to enable pet/companion robot indoor navigation and mapping. | 2023 |
| [RIF Robotics](https://www.rifrobotics.com) | The Nav2 Stack is an essential tool for RIF Robotics, helping them to create effective, efficient, and reliable autonomous systems (see [`RIF-Robotics/navigation2`](https://github.com/RIF-Robotics/navigation2)). | 2020 |
| [Robolaunch](https://www.robolaunch.io/) | Uses [Navigation](https://www.linkedin.com/posts/ahmet-tuna-%C3%A7etin-83b0a61b6_robotics-cloud-opensource-ugcPost-7024121373060976640-uvMu/?utm_source=share&utm_medium=member_ios) stack to control [Cloudy](https://www.robolaunch.io/robots), is a fully open-source and autonomous robotics learning platform based on ROS framework. | 2020 |
| [RoboTech Vision](https://robotechvision.com/) | Nav2 is a key component of RoboTech Vision's autonomous navigation capabilities, as it provides a robust and flexible solution for robot navigation, motion planning, and environment monitoring (see [`robotechvision/navigation2`](https://github.com/robotechvision/navigation2)). | 2013 |
| [ROBOTIS](https://robotis.us/) | Uses the Nav2 stack as the main navigation platform for their robots (see [`ROBOTIS-SYS/navigation2`](https://github.com/ROBOTIS-SYS/navigation2)). | 1999 |
| [Rover Robotics](https://roverrobotics.com/) | Packages for running an OpenRover robot on ROS2 (see [`RoverRobotics-archive/roverrobotics_ros2`](https://github.com/RoverRobotics-archive/roverrobotics_ros2)). | 2018 |
| [RUVU](https://ruvu.nl/) | ROS Navigation stack (see [`ruvu/navigation`](https://github.com/ruvu/navigation)). | 2017 |
| [Seasony](https://www.seasony.io/) | Uses ROS and Navigation stack to build their robots (see [`Robots`](https://navigation.ros.org/about/robots.html)). | 2018 |
| [Skarv Technologies](http://www.skarvtech.com) | Uses the Nav2 Stack to provide navigation solutions for their customers' robots (see [`skarvtech/navigation2`](https://github.com/skarvtech/navigation2)). | 2019 |
| [SLAMcore](http://www.slamcore.com) | SLAMcore uses the Nav2 Stack to provide real-time 6 DOF simultaneous localization and mapping (SLAM) solutions for robotics and autonomous systems (see [`slamcore/navigation2`](https://github.com/slamcore/navigation2)). | 2016 |
| [Smile Robotics, Inc.](smilerobotics.com) | Uses the ROS Navigation stack to enable their robots to navigate autonomously. ROS Navigation stack (see [`smilerobotics/navigation`](https://github.com/smilerobotics/navigation)). | 2019 |
| [Stogl Robotics](https://www.stoglrobotics.de/) | The Nav2 stack provides a platform for developing autonomous systems, enabling Stogl Robotics to rapidly prototype and test new autonomous capabilities in their robots (see [`StoglRobotics-forks/navigation2`](https://github.com/StoglRobotics-forks/navigation2)). | 2021 |
| [Stratom](http://www.stratom.com) | Utilizes the Nav2 Stack for a variety of navigation tasks, including mapping and localization (see [`StratomInc/navigation2`](https://github.com/StratomInc/navigation2)). | 2001 |
| [Synkar Autonomous](http://www.synkar.com) | Uses ROS and Navigation stack to build their robots (see [`Synkar/navigation2`](https://github.com/Synkar/navigation2)). | 2019 |
| [TAILOS](https://tailos.com/) | ROS Navigation stack (see [`tailosinc/navigation`](https://github.com/tailosinc/navigation)). | 2015 |
| [TIER IV](https://tier4.jp/en/) | Uses ROS and Navigation stack to build their robots (see [`tier4/navigation2`](https://github.com/tier4/navigation2)). | 2015 |
| [Toyota Research Institute](https://www.tri.global/) | Uses ROS and Navigation stack to build their robots (see [`Robots`](https://navigation.ros.org/about/robots.html)). | 2016 |
| [United Robots](https://www.unitedrobots.co/) | Mobile robotic solutions for safer, cleaner and healthier spaces uses ROS and Navigation stack to build their robots. Hiring engineers with experience in navigation stack ([AUTONOMOUS NAVIGATION ENGINEER](https://www.linkedin.com/jobs/view/3567565845/)). | 2016 |
| [Unmanned Life](http://unmanned.life) | Uses ROS and Navigation stack to build their robots (see [`umdlife/navigation2`](https://github.com/umdlife/navigation2)). | 2015 |
| [Vayu Robotics](http://www.vayurobotics.com) | Uses the Nav2 Stack for better integration with other systems, such as control and monitoring software, and provides a platform for further development and innovation (see [`Vayu-Robotics/navigation2`](https://github.com/Vayu-Robotics/navigation2)). | 2022 |
| [Vecna Robotics](http://vecnarobotics.com) | Uses the ROS Navigation stack to enable their robots to navigate autonomously. ROS Navigation stack (see [`vecnatechnologies/navigation`](https://github.com/vecnatechnologies/navigation)). | 1998 |
| [Wyca Robotics](https://www.wyca-robotics.fr/) | A list of robots using ROS Navigation stack and ROS 2's Nav2 framework (see [`Robots`](https://navigation.ros.org/about/robots.html)). | 2015 |
| [Yujin Robot](https://yujinrobot.com/) | Uses the ROS Navigation stack to enable their robots to navigate autonomously. ROS Navigation stack (see [`yujinrobot/navigation`](https://github.com/yujinrobot/navigation)). | 1988 |

#### Manipulation
Lists companies known to use the ROS Manipulation stack (MoveIt).

| Company | Description | Year Founded|
|---------|-------------|-------------|
| [Active8 Robots](http://www.active8robots.com) | The company uses the ROS Manipulation stack (MoveIt) in the [AR10 Robotic Hand](https://www.active8robots.com/ar10-robotic-hand/). | 2013 |
| [Aivot](https://www.aivot.com/) | Develop humanoid robots and use the manipulation stack to control its arms and hands for manipulation tasks (see [`AivotRobotics/moveit`](https://github.com/AivotRobotics/moveit)). | 2017 |
| [ASIMOV Robotics](http://www.asimovrobotics.com) | The company uses the manipulation stack in some of its robots to perform manipulation tasks (see [`asimov-robust/moveit`](https://github.com/asimov-robust/moveit)). | 2012 |
| [AUBO Robotics](https://www.aubo-cobot.com/public/index3) | The company uses the ROS Manipulation stack (MoveIt) in the i3/i5/i7/i10 (see [`AuboRobot/aubo_robot`](https://github.com/AuboRobot/aubo_robot)). | 2013 |
| [Bastian Solutions](http://www.bastiansolutions.com) | The company uses the manipulation stack in a variety of projects aimed at creating automated material handling systems for its customers (see [`BastianSolutionsRandD/moveit`](https://github.com/BastianSolutionsRandD/moveit)). | 1952 |
| [Bowery Farming](http://boweryfarming.com) | The company employs the manipulation stack for governing its self-directed mobile robots that carry out a range of activities within the farming facility, including sowing seeds, supervising crop growth, and gathering crops at harvest time (see [`BoweryFarming/moveit`](https://github.com/BoweryFarming/moveit)). | 2015 |
| [Canvas](https://www.canvas.build/) | Uses ROS and Manipulation stack to build their robots (see [`Canvas-Construction/moveit`](https://github.com/Canvas-Construction/moveit)). | 2017 |
| [Comau](http://www.comau.com) | The company uses the ROS Manipulation stack (MoveIt) in the e.Do (see [`Comau/eDO_moveit`](https://github.com/Comau/eDO_moveit)). | 1973 |
| [DENSO](https://www.denso.com/us-ca/en/) | A guide on how to navigate the [MOVEIT Software (RVIZ)](https://support.densorobotics.com/support/solutions/articles/60000702891-guide-on-using-the-moveit-software-rviz-) to get the [COBOTTA](https://www.denso-wave.com/en/robot/product/collabo/cobotta.html) to move positions. | 1947 |
| [Doosan](https://www.doosan.com/en) | The company uses the ROS Manipulation stack (MoveIt) in the M0609/M0617/M1013/M1509 (see [`doosan-robotics/doosan-robot`](https://github.com/doosan-robotics/doosan-robot)). | 2012 |
| [eBots](http://www.ebots.com) | Use the MoveIt2 stack as part of their software to plan and execute motion for their robotic systems (see [`ebots-inc/moveit2`](https://github.com/ebots-inc/moveit2)). | 2017 |
| [Elephant Robotics](elephantrobotics.com/en/) | The company uses the ROS Manipulation stack (MoveIt) in the MyCobot (see [`elephantrobotics/mycobot_moveit`](https://github.com/elephantrobotics/mycobot_moveit)). | 2016 |
| [Forssea Robotics](http://www.forssea-robotics.fr) | Uses ROS and Manipulation stack to build their robots (see [`forssea-robotics/moveit2`](https://github.com/forssea-robotics/moveit2)). | 2016 |
| [Franka Emika](http://www.franka.de) | The company uses the ROS Manipulation stack (MoveIt). Support for [ROS Control and MoveIt](https://frankaemika.github.io/docs/) (see [`frankaemika/franka_ros`](https://github.com/frankaemika/franka_ros)). | 2016 |
| [GITAI](http://gitai.tech/) | Utilizes the manipulation stack to execute different operations including object recognition, grasping, manipulation, and motion planning. (see [`GITAI/moveit`](https://github.com/GITAI/moveit)). | 2016 |
| [Griffin](http://griffin.ethz.ch) | Uses ROS and Manipulation stack to build their robots (see [`Griffin-Focus-Project/moveit`](https://github.com/Griffin-Focus-Project/moveit)). | 2020 |
| [Han's Robot](https://www.hansrobot.net/index) | The company uses the ROS Manipulation stack (MoveIt) in the Elfin3/Elfin5/Elfin5I/Elfin10/Elfin15 (see [`hans-robot/elfin_robot`](https://github.com/hans-robot/elfin_robot)). | 2017 |
| [Hyundai](https://www.hyundai.com/eu.html) | Hyundai uses the Manipulation stack for its industrial robots to perform tasks such as welding, painting, and assembly in automotive manufacturing (see [`HYUNDAI-Robotics-Autonomous-Engineering/moveit`](https://github.com/HYUNDAI-Robotics-Autonomous-Engineering/moveit)). | 2000 |
| [IKNOWHOW SA](http://www.Iknowhow.com) | Uses ROS and Manipulation stack to build their robots (see [`ikh-innovation/moveit`](https://github.com/ikh-innovation/moveit)). | 2004 |
| [Intermodalics](http://www.intermodalics.eu) | Intermodalics uses the Manipulation stack to enable their clients robots to perform complex motions efficiently and safely (see [`Intermodalics/moveit`](https://github.com/Intermodalics/moveit)). | 2010 |
| [IR4 PTY LTD](http://www.ir4.com.au) | The manipulation stack allows them to develop motion planning and control solutions for their robotic systems (see [`sssmanufacturing/moveit-1`](https://github.com/sssmanufacturing/moveit-1)). | 2016 |
| [Iron Ox](https://ironox.com/) | Uses the ROS Manipulation stack to control the movement and positioning of their robotic arms (see [`iron-ox/moveit`](https://github.com/iron-ox/moveit)). | 2015 |
| [Kawasaki](https://global.kawasaki.com) | The company uses the ROS Manipulation stack (MoveIt) in the Duaro (see [`Kawasaki-Robotics/khi_robot`](https://github.com/Kawasaki-Robotics/khi_robot)). | 1896 |
| [Kinova Robotics](https://assistive.kinovarobotics.com/) | The company uses the ROS Manipulation stack (MoveIt) in the Jaco/Jaco2/MICO/Movo (see [`Kinovarobotics/kinova-ros/tree/master/kinova_moveit`](https://github.com/Kinovarobotics/kinova-ros/tree/master/kinova_moveit)). | 2006 |
| [KiQ Robotics](https://kiq-robotics.co.jp/) | Uses ROS and Manipulation stack to build their robots (see [`KiQ-Robotics/moveit2`](https://github.com/KiQ-Robotics/moveit2)). | 2019 |
| [MindHome](http://www.mindhome.co) | Uses the ROS Manipulation stack to enable their robotic arm to pick up and manipulate objects in a home environment (see [`MindHome-Inc/moveit`](https://github.com/MindHome-Inc/moveit)). | 2018 |
| [Miso Robotics](https://misorobotics.com) | Use the MoveIt2 stack as part of their software infrastructure to control the motion of their robotic systems and to perform complex tasks such as preparing food items in a commercial kitchen (see [`MisoRobotics/moveit2`](https://github.com/MisoRobotics/moveit2)). | 2016 |
| [NEUROMEKA](http://www.neuromeka.com) | The company uses the ROS Manipulation stack (MoveIt) in the Indy 5/Indy 7/Indy RP/Indy RP2 (see [`neuromeka-robotics/ros_indy`](https://github.com/neuromeka-robotics/ros_indy)). | 2013 |
| [Niryo](https://niryo.com) | The company uses the ROS Manipulation stack (MoveIt) in the Niryo One (see [`NiryoRobotics/niryo_one_ros`](https://github.com/NiryoRobotics/niryo_one_ros)). | 2016 |
| [NXTGEN Robotics](http://www.nxtgenindustries.com.au) | Uses the ROS Manipulation stack to control and plan the motion of their robotic systems (see [`NXTGEN-Robotics/moveit`](https://github.com/NXTGEN-Robotics/moveit)). | 2019 |
| [OMRON Group](https://www.omron.com/) | OMRON Group uses the Manipulation stack for the development of their collaborative robots, the TM series. They have integrated MoveIt into the robot programming interface to enable users to easily program and simulate complex movements and tasks (see [`omron-sinicx/moveit`](https://github.com/omron-sinicx/moveit)). | 1933 |
| [Optonic](https://www.optonic.com/en/) | They use the Manipulation stack to plan and execute precise and accurate movements of their robotics solutions for the agricultural industry (see [`isys-vision/moveit`](https://github.com/isys-vision/moveit)). | 2020 |
| [Oversonic](https://www.oversonicrobotics.com/) | Oversonic uses the Manipulation stack to control the movements of their robotic arms. They integrate MoveIt into their software to plan, execute, and monitor the motion of the robotic arms in real-time (see [`OversonicRobotics/moveit`](https://github.com/OversonicRobotics/moveit)). | 2020 |
| [PAL Robotics](https://pal-robotics.com/) | The company uses the ROS Manipulation stack (MoveIt) in the ARI (see [`pal-robotics/ari_moveit_config`](https://github.com/pal-robotics/ari_moveit_config)). | 2004 |
| [PickNik Robotics](https://picknik.ai/) | Use the MoveIt2 stack as part of their software to plan and execute motion for their robotic systems (see [`PickNikRobotics/moveit2`](https://github.com/PickNikRobotics/moveit2)). | 2015 |
| [Pilz](https://www.pilz.com/en-US) | The company uses the ROS Manipulation stack (MoveIt) (see [`PilzDE/moveit2`](https://github.com/PilzDE/moveit2)). | 1948 |
| [Quasi Robotics](https://quasi.ai) | Use the MoveIt2 stack as part of their software to plan and execute motion for their robotic systems (see [`quasi-robotics/moveit2`](https://github.com/quasi-robotics/moveit2)). | 2017 |
| [RIF Robotics](https://www.rifrobotics.com) | Uses ROS and Manipulation stack to build their robots (see [`RIF-Robotics/moveit2`](https://github.com/RIF-Robotics/moveit2)). | 2020 |
| [Rivelin Robotics](http://www.rivelinrobotics.com) | Rivelin Robotics uses the ROS Manipulation stack to plan and control the motion of their robotic arms (see [`rivelinrobotics/rivelin_move_group_sequence`](https://github.com/rivelinrobotics/rivelin_move_group_sequence)). | 2018 |
| [ROBOTIS](https://robotis.us/) | The company uses the ROS Manipulation stack (MoveIt) in the Open Manipulator (see [`ROBOTIS-GIT/open_manipulator`](https://github.com/ROBOTIS-GIT/open_manipulator)). | 1999 |
| [Rope Robotics](http://www.roperobotics.com) | Uses the Manipulation stack for motion planning and control of their industrial robots (see [`Rope-Robotics/moveit`](https://github.com/Rope-Robotics/moveit)). | 2016 |
| [RT Corporation](https://rt-net.jp/) | The company uses the ROS Manipulation stack (MoveIt) in the Crane-X7 (see [`rt-net/crane_x7_ros`](https://github.com/rt-net/crane_x7_ros)). | 2005 |
| [RUVU](https://ruvu.nl/) | Uses the Manipulation stack for motion planning and control of their autonomous mobile robots (see [`ruvu/moveit`](https://github.com/ruvu/moveit)). | 2017 |
| [SESTO Robotics](https://www.sestorobotics.com) | SESTO Robotics leverages MoveIt for its Autonomous Mobile Robot (AMR) platform, called SESTO Magnus. The robot uses the ROS Manipulation stack to perform autonomous navigation, obstacle avoidance, and manipulation tasks (see [`hopetechnik/moveit`](https://github.com/hopetechnik/moveit)). | 2017 |
| [Shadow Robot](https://www.shadowrobot.com/) | The company uses the ROS Manipulation stack (MoveIt) (see [`shadow-robot/moveit`](https://github.com/shadow-robot/moveit)). | 1987 |
| [Spinbotics](http://spinbotics.com) | Use this software to develop and implement robotic applications that require motion planning and control (see [`Spinbotics-s-r-o/moveit2`](https://github.com/Spinbotics-s-r-o/moveit2)). | 2020 |
| [ST Robotics](http://strobotics.com) | The company uses the ROS Manipulation stack (MoveIt) in the R12 (see [`ST-ROBOTICS/r12_moveit_config`](https://github.com/ST-ROBOTICS/r12_moveit_config)). | 1986 |
| [Stogl Robotics](https://www.stoglrobotics.de/) | Use the MoveIt2 stack as part of their software to plan and execute motion for their robotic systems (see [`StoglRobotics-forks/moveit2`](https://github.com/StoglRobotics-forks/moveit2)). | 2021 |
| [TRACLabs](http://traclabs.com) | Uses the Manipulation stack to control robotic manipulators, plan motion trajectories, and optimize grasping and manipulation tasks (see [`traclabs/moveit`](https://github.com/traclabs/moveit)). | 1994 |
| [Trossen Robotics](http://www.trossenrobotics.com/) | The company uses the ROS Manipulation stack (MoveIt) (see [`Interbotix/interbotix_ros_manipulators`](https://github.com/Interbotix/interbotix_ros_manipulators)). | 2005 |
| [UFACTORY](http://www.ufactory.cc) | The company uses the ROS Manipulation stack (MoveIt) in the xArm 5/ xArm 6/xArm 7 (see [`xArm-Developer/xarm_ros`](https://github.com/xArm-Developer/xarm_ros)). | 2013 |
| [Unibap AB](https://unibap.com) | The Manipulation stack is utilized by Unibap AB to perform the motion planning and control of industrial robots (see [`Unibap/moveit`](https://github.com/Unibap/moveit)). | 2013 |
| [Universal Robots](https://www.universal-robots.com/) | The company uses the ROS Manipulation stack (MoveIt) in the UR3/UR5/UR10 (see [`ros-industrial/universal_robot`](https://github.com/ros-industrial/universal_robot)). | 2005 |

#### Perception
Lists companies known to use the [ROS Perception stack](https://github.com/ros-perception).

| Company | Description | Year Founded|
|---------|-------------|-------------|
| [Acceleration Robotics](https://accelerationrobotics.com) | Hardware Acceleration solutions for robots using ROS 2. Use the ROS 2 perception stack actively in customer projects and serve [`ROBOTCORE®` Perception](https://accelerationrobotics.com/robotcore-perception.php), an optimized robotic perception stack that leverages hardware acceleration to provide a speedup in perception computations (while remaining API-compatible with the default ROS 2 perception stack). | 2021 |
| [ADLINK Technology](https://www.adlinktech.com/en/index) | An image processing pipeline for ROS for ADLINK Technology (see [`Adlink-ROS/image_pipeline`](https://github.com/Adlink-ROS/image_pipeline)). | 1995 |
| [Aeva](http://www.aeva.com) | Aeva introduces a [Aeries II](https://iot-automotive.news/aeva-introduces-aeries-ii-the-worlds-first-4d-lidar-with-camera-level-resolution/), the world's first 4D LiDAR with camera-level resolution [^330]. Hiring perception engineers ([Perception Validation Engineer](https://www.aeva.com/career/?lv_jid=f16593e0-9605-4927-a12a-c30bab868b22)). | 2017 |
| [AEye](https://www.aeye.ai/) | Develop a sensor data type called Dynamic Vixels™, which combines pixels from digital 2D cameras with voxels from AEye’s Agile 3D LiDAR sensor into a single super-resolution sensor data type, allowing vehicles to see and perceive more like humans to better evaluate potential driving hazards and adapt to changing conditions [^331]. | 2013 |
| [Analog Devices](https://www.analog.com/en/index.html) | Specializes in high-performance signal processing and offers a range of LIDAR technology products to enable high-performance LIDAR systems [^332]. | 1965 |
| [ANYbotics](https://www.anybotics.com/) | ros2 vision_opencv contains packages to interface ROS 2 with OpenCV for ANYbotics (see [`ANYbotics/vision_opencv`](https://github.com/ANYbotics/vision_opencv)).| 2016 |
| [Apex.AI](https://www.apex.ai/) | Provides the LaserProjection class for turning laser scan data into point clouds for Apex.AI (see [`ApexAI/laser_geometry`](https://github.com/ApexAI/laser_geometry)). | 2017 |
| [ARAV](https://www.arav.jp/) | Converts a 3D Point Cloud into a 2D laser scan for ARAV (see [`arav-jp/pointcloud_to_laserscan`](https://github.com/arav-jp/pointcloud_to_laserscan)). | 2020 |
| [Arbe](http://www.arberobotics.com) | Through an AI-based analysis of the vehicle’s surroundings, Arbe’s 360° Perception is the first radar technology detailed enough to enhance perception algorithms, elevating L2+ and higher applications from nice-to-have comfort solutions to must-have safety features [^333]. | 2015 |
| [ASIMOV Robotics](http://www.asimovrobotics.com) | slam_gmapping contains a wrapper around gmapping which provides SLAM capabilities for ASIMOV Robotics (see [`asimov-robust/slam_gmapping`](https://github.com/asimov-robust/slam_gmapping)). | 2012 |
| [A&K Robotics](http://www.AandKrobotics.com) | An image processing pipeline for ROS for A&K Robotics (see [`akrobotics/image_pipeline`](https://github.com/akrobotics/image_pipeline)). | 2015 |
| [Badger Technologies](http://www.badger-technologies.com/) | ROS Perception drivers (laser_filters) for Badger Technologies (see [`BadgerTechnologies/laser_filters`](https://github.com/BadgerTechnologies/laser_filters)).| 2017 |
| [Beagle Systems](https://www.beaglesystems.com/) | Common code for working with images in ROS for Beagle Systems (see [`BeagleSystems/image_common`](https://github.com/BeagleSystems/image_common)). | 2019 |
| [Beta Robots](https://beta-robots.com/) | slam_gmapping contains a wrapper around gmapping which provides SLAM capabilities for Beta Robots (see [`beta-robots/slam_gmapping`](https://github.com/beta-robots/slam_gmapping)). | 2016 |
| [Blickfeld](https://www.blickfeld.com/) | [Blickfeld Percept](https://www.blickfeld.com/lidar-sensor-products/percept/) is a perception software that empowers everyone to translate data from Blickfeld’s LiDAR sensors into actionable insight for real-world applications [^334]. | 2017 |
| [Bluewhale Robot](http://www.bwbot.org) | ROS Perception drivers (laser_filters) for Bluewhale Robot (see [`BluewhaleRobot/laser_filters`](https://github.com/BluewhaleRobot/laser_filters)), slam_gmapping contains a wrapper around gmapping which provides SLAM capabilities (see [`BluewhaleRobot/slam_gmapping`](https://github.com/BluewhaleRobot/slam_gmapping)), ros2 vision_opencv contains packages to interface ROS 2 with OpenCV (see [`BluewhaleRobot/vision_opencv`](https://github.com/BluewhaleRobot/vision_opencv)) and ROS Perception package (depthimage_to_laserscan) that converts a depth image to a laser scan for use with navigation and localization (see [`BluewhaleRobot/depthimage_to_laserscan`](https://github.com/BluewhaleRobot/depthimage_to_laserscan)) for Bluewhale Robot. | 2015 |
| [Bosch](https://www.bosch.com/) | Provides the LaserProjection class for turning laser scan data into point clouds (see [`boschresearch/laser_geometry`](https://github.com/boschresearch/laser_geometry)) an image processing pipeline for ROS (see [`boschresearch/image_pipeline`](https://github.com/boschresearch/image_pipeline)) for Bosch. | 1886 |
| [BrainGarden](https://www.braingarden.ai) | ROS Perception package (depthimage_to_laserscan) that converts a depth image to a laser scan for use with navigation and localization for BrainGarden (see [`BrainGardenAI/depthimage_to_laserscan`](https://github.com/BrainGardenAI/depthimage_to_laserscan)) and provides the LaserProjection class for turning laser scan data into point clouds (see [`BrainGardenAI/laser_geometry`](https://github.com/BrainGardenAI/laser_geometry)) for BrainGarden. | 2017 |
| [Brain Corp](http://braincorp.com/) | ROS Perception drivers (laser_filters) (see [`braincorp/laser_filters`](https://github.com/braincorp/laser_filters)) and an image processing pipeline for ROS (see [`braincorp/backup-image_pipeline`](https://github.com/braincorp/backup-image_pipeline)) for Brain Corp. | 2009 |
| [Carnegie Robotics](http://carnegierobotics.com) | ros2 vision_opencv contains packages to interface ROS 2 with OpenCV for Carnegie Robotics (see [`carnegieroboticsllc/vision_opencv`](https://github.com/carnegieroboticsllc/vision_opencv)). | 2010 |
| [Cepton](http://cepton.com/) | [The Helius Smart Lidar System](https://www.cepton.com/products/helius) combines Cepton's state-of-the-art, patented, MMT® lidar technology with edge computing and ground-breaking perception software, to provide intelligent, anonymized 3D perception [^336]. | 2016 |
| [Clearpath Robotics](https://clearpathrobotics.com/) | ROS Perception drivers (laser_filters) (see [`clearpathrobotics/laser_filters`](https://github.com/clearpathrobotics/laser_filters)), PCL (Point Cloud Library) ROS interface stack (see [`clearpathrobotics/perception_pcl`](https://github.com/clearpathrobotics/perception_pcl)), an image processing pipeline for ROS (see [`clearpathrobotics/image_pipeline`](https://github.com/clearpathrobotics/image_pipeline)), slam_gmapping contains a wrapper around gmapping which provides SLAM capabilities (see [`clearpathrobotics/slam_gmapping`](https://github.com/clearpathrobotics/slam_gmapping)), provides the LaserProjection class for turning laser scan data into point clouds (see [`clearpathrobotics/laser_geometry`](https://github.com/clearpathrobotics/laser_geometry)) and a set of plugins for publishing and subscribing to sensor_msgs/Image topics in representations other than raw pixel data (see [`clearpathrobotics/image_transport_plugins`](https://github.com/clearpathrobotics/image_transport_plugins)) for Clearpath Robotics. | 2009 |
| [Coalescent Mobile Robotics](https://cm-robotics.com/) | PCL (Point Cloud Library) ROS interface stack for Coalescent Mobile Robotics (see [`cmrobotics/perception_pcl`](https://github.com/cmrobotics/perception_pcl)). | 2018 |
| [Constructive Realities](http://constructiverealities.io) | PCL (Point Cloud Library) ROS interface stack for Constructive Realities (see [`constructiverealities/perception_pcl`](https://github.com/constructiverealities/perception_pcl)). | 2022 |
| [Continental](https://www.continental.com/en/) | For automated driving, 360° sensor coverage, and central data fusion is a necessity. CES offers a modular prototype solution for your development activities in the field of autonomy. A variety of different hardware components and software modules are available off-the-shelf for quick onboarding [^337]. | 1871 |
| [Demine Robotics](https://deminerobotics.com/) | An image processing pipeline for ROS for Demine Robotics (see [`DemineRobotics/image_pipeline`](https://github.com/DemineRobotics/image_pipeline)). | 2016 |
| [DENSO](https://www.denso.com/us-ca/en/) | Announced a partnership with U.S. LiDAR and perception systems company, Aeva, to develop next-generation sensing and perception systems [^338]. | 1947 |
| [Dexai Robotic](https://www.dexai.com) | An image processing pipeline for ROS for Dexai Robotics (see [`DexaiRobotics/image_pipeline`](https://github.com/DexaiRobotics/image_pipeline)). | 2018 |
| [DreamVu](http://www.dreamvu.com) | [ALIA](https://dreamvu.com/alia/) is an omnidirectional vision system that provides long-range and high-resolution 3D imaging and perception capabilites in a single video stream with intelligence at the edge [^339]. | 2017 |
| [EikonTech](http://www.eikontech.it) | A set of plugins for publishing and subscribing to sensor_msgs/Image topics in representations other than raw pixel data (see [`eikontech/image_transport_plugins`](https://github.com/eikontech/image_transport_plugins)), an image processing pipeline for ROS (see [`eikontech/image_pipeline`](https://github.com/eikontech/image_pipeline)), ros2 vision_opencv contains packages to interface ROS 2 with OpenCV (see [`eikontech/vision_opencv`](https://github.com/eikontech/vision_opencv)) and common code for working with images in ROS (see [`eikontech/image_common`](https://github.com/eikontech/image_common)) for EikonTech. | 2009 |
| [ENWAY](http://www.enway.ai) | opencv_apps provides various nodes that run internally OpenCV's functionalities and publish the result as ROS topics for ENWAY (see [`enwaytech/opencv_apps`](https://github.com/enwaytech/opencv_apps)). | 2017 |
| [Eurogroep](http://www.eurogroep.com) | ROS Perception drivers (laser_filters) for Eurogroep (see [`eurogroep/laser_filters`](https://github.com/eurogroep/laser_filters)).| 2005 |
| [EVAR](https://www.evar.co.kr/) | Algorithm-agnostic computer vision message types for ROS for EVAR (see [`EvarClab/vision_msgs`](https://github.com/EvarClab/vision_msgs)). | 2016 |
| [e-con Systems](https://www.e-consystems.com) | ros2 vision_opencv contains packages to interface ROS 2 with OpenCV for e-con Systems (see [`econsystems/vision_opencv`](https://github.com/econsystems/vision_opencv)). | 2003 |
| [FarmWise](http://farmwiselabs.com) | Code for working with images in ROS (see [`FarmWise/image_common`](https://github.com/FarmWise/image_common)). | 2016 |
| [FastSense](http://www.fastsense.tech) | An image processing pipeline for ROS for FastSense (see [`FastSense/image_pipeline`](https://github.com/FastSense/image_pipeline)). | 2017 |
| [Filics](http://www.filics.eu) | ROS Perception drivers (laser_filters) for Filics (see [`FutureInLogistics/laser_filters`](https://github.com/FutureInLogistics/laser_filters)). | 2016 |
| [FireFly Automatix](https://fireflyautomatix.com) | ROS Perception drivers (perception_pcl) for FireFly Automatix (see [`fireflyautomatix/perception_pcl`](https://github.com/fireflyautomatix/perception_pcl)). | 2010 |
| [Fizyr](http://www.fizyr.com) | A set of plugins for publishing and subscribing to sensor_msgs/Image topics in representations other than raw pixel data (see [`fizyr-forks/image_transport_plugins`](https://github.com/fizyr-forks/image_transport_plugins)), an image processing pipeline for ROS (see [`fizyr-forks/image_pipeline`](https://github.com/fizyr-forks/image_pipeline)), ros2 vision_opencv contains packages to interface ROS 2 with OpenCV (see [`fizyr-forks/vision_opencv`](https://github.com/fizyr-forks/vision_opencv)) and common code for working with images in ROS (see [`fizyr-forks/image_common`](https://github.com/fizyr-forks/image_common)) for Fizyr. | 2014 |
| [Forssea Robotics](http://www.forssea-robotics.fr) | ros2 vision_opencv contains packages to interface ROS 2 with OpenCV for Forssea Robotics (see [`forssea-robotics/vision_opencv`](https://github.com/forssea-robotics/vision_opencv)). | 2016 |
| [GITAI](http://gitai.tech/) | Common code for working with images in ROS (see [`GITAI/image_common`](https://github.com/GITAI/image_common)) and an image processing pipeline for ROS (see [`GITAI/image_pipeline`](https://github.com/GITAI/image_pipeline)) for GITAI. | 2016 |
| [Hatchbed](https://hatchbed.com/) | An image processing pipeline for ROS for Hatchbed (see [`hatchbed/image_pipeline`](https://github.com/hatchbed/image_pipeline)). | 2019 |
| [Hesai Technology](http://www.hesaitech.com/en) | Hesai Technology announces new Lidar design win with SAIC's Rising Auto [^340]. | 2014 |
| [Hokuyo Automatic](http://www.hokuyo-aut.jp) | Hokuyo, SiLC Technologies collaborate to bring 4D LiDAR technology to industrial automation and robotics applications [^341]. | 1946 |
| [Honeywell](https://www.honeywell.com/) | Honeywell introduces new robotic technology to help warehouses boost productivity, reduce injuries. Driven by sophisticated machine learning and advances in perception and gripping technologies [^342]. | 1906 |
| [iFollow](https://www.ifollow.fr/) | ROS Perception package (depthimage_to_laserscan) that converts a depth image to a laser scan for use with navigation and localization for iFollow (see [`ifollow-robotics/depthimage_to_laserscan`](https://github.com/ifollow-robotics/depthimage_to_laserscan)). | 2017 |
| [inaho](https://en.inaho.co/) | Algorithm-agnostic computer vision message types for ROS for inaho (see [`teaminaho/vision_msgs`](https://github.com/teaminaho/vision_msgs)). | 2021 |
| [InDro Robotics](https://indrorobotics.ca/) | Converts a 3D Point Cloud into a 2D laser scan for InDro Robotics (see [`indro-robotics/pointcloud_to_laserscan`](https://github.com/indro-robotics/pointcloud_to_laserscan)).| 2014 |
| [Inertial Sense](https://inertialsense.com) | Develop autonomous navigation software and precision sensors for commercial mobile robotics. Hiring Perception engineers ([Senior Robotics Perception Engineer](https://www.linkedin.com/jobs/view/1682602369/))[^343]. | 2013 |
| [Infineon](https://www.infineon.com/cms/en/) | Infineon presents the world's first ISO26262-compliant high-resolution 3D image sensor for automotive. The imager might be used in environmental perception scenarios as a Flash-LiDAR in the automotive space and – based on the safety conformity – it is also an ideal candidate for adjacent applications in mobile robotics, drones and other autonomous use cases [^344]. | 1999 |
| [Innoviz Technologies](http://www.innoviz.tech) | Innoviz’s advanced perception software, a tool for extracting additional data from the point cloud, offers and provides vehicles with a deep understanding of any 3D driving scene [^346]. | 2016 |
| [Intel](https://www.intel.com/content/www/us/en/homepage.html) | They offers tutorials with solutions for sensors and computer vision in ROS 2-based Docker containers [^347]. | 1968 |
| [Intermodalics](http://www.intermodalics.eu) | ros2 vision_opencv contains packages to interface ROS 2 with OpenCV (see [`Intermodalics/vision_opencv`](https://github.com/Intermodalics/vision_opencv)) and an image processing pipeline for ROS (see [`Intermodalics/image_pipeline-1`](https://github.com/Intermodalics/image_pipeline-1)) for Intermodalics. | 2010 |
| [Iron Ox](https://ironox.com/) | ROS Perception drivers (laser_filters) for Iron Ox (see [`iron-ox/laser_filters`](https://github.com/iron-ox/laser_filters)). | 2015 |
| [IVEX](http://www.ivex.ai) | AR tag tracking library for ROS for IVEX (see [`IVEX-AI/ar_track_alvar`](https://github.com/IVEX-AI/ar_track_alvar)). | 2018 |
| [Kapernikov](http://www.kapernikov.com) | They apply data analytics and computer vision techniques to turn data streams into valuable information which in turn helps people or robots make the right decisions. A set of plugins for publishing and subscribing to sensor_msgs/Image topics in representations other than raw pixel data (see [`Kapernikov/image_transport_plugins`](https://github.com/Kapernikov/image_transport_plugins)) and common code for working with images in ROS (see [`Kapernikov/image_common`](https://github.com/Kapernikov/image_common)) for Kapernikov. | 2011 |
| [Kiwibot](https://www.kiwibot.com/) | Algorithm-agnostic computer vision message types for ROS (see [`kiwicampus/vision_msgs`](https://github.com/kiwicampus/vision_msgs)) and for an image processing pipeline for ROS (see [`kiwicampus/image_pipeline`](https://github.com/kiwicampus/image_pipeline)) Kiwibot. | 2017 |
| [Kudan](https://www.kudan.io/) | Kudan's Artificial Perception technology fills a critical gap to harness the power of Artificial Intelligence. Kudan provides sensory functions to the brain of machines [^348]. | 2010 |
| [LeddarTech](http://www.leddartech.com) | LeddarTech is an automotive ADAS and AD software company that offers comprehensive end-to-end raw data fusion and perception solutions enabling OEMs and Tier-1-2 suppliers to solve critical sensing, fusion and perception challenges [^349]. | 2007 |
| [LEJU ROBOTICS](http://www.lejurobot.com) | An image processing pipeline for ROS for LEJU ROBOTICS (see [`LejuRobotics/ros_image_pipeline`](https://github.com/LejuRobotics/ros_image_pipeline)). | 2016 |
| [Leo Drive](http://www.leodrive.ai) | slam_gmapping contains a wrapper around gmapping which provides SLAM capabilities (see [`leo-drive/slam_gmapping`](https://github.com/leo-drive/slam_gmapping)) and ros2 vision_opencv contains packages to interface ROS 2 with OpenCV (see [`leo-drive/vision_opencv`](https://github.com/leo-drive/vision_opencv)) for Leo Drive. | 2015 |
| [LG (SVL Simulator)](https://www.svlsimulator.com/) | ros2 vision_opencv contains packages to interface ROS 2 with OpenCV for LG (SVL Simulator) (see [`lgsvl/vision_opencv`](https://github.com/lgsvl/vision_opencv)). | 2018 |
| [Livox LiDAR](https://www.livoxtech.com/) | [Mid-360](https://www.livoxtech.com/mid-360) is the latest generation of Livox LiDAR for low speed robotics. This product inherits the cost-effectiveness of the Livox Mid series and delivers 3D perception in 360 degrees [^350]. | 2016 |
| [Locus Robotics](https://locusrobotics.com/industry_solutions/industrial/) | PCL (Point Cloud Library) ROS interface stack (see [`locusrobotics/perception_pcl`](https://github.com/locusrobotics/perception_pcl)) and an image processing pipeline for ROS (see [`locusrobotics/image_pipeline`](https://github.com/locusrobotics/image_pipeline)) for Locus Robotics. | 2014 |
| [LUCID Vision Labs](https://thinklucid.com) | LUCID presents new Helios2+ time-of-flight camera with HDR and high-speed modes for precise 3D object detection and measurement at control [^345]. | 2017 |
| [Luminar Technologies](https://www.luminartech.com) | Luminar introduced the industry’s most advanced LiDAR perception technology that enables safe driver-out-of-the-loop autonomy [^351]. | 2012 |
| [Luxonis](https://www.luxonis.com/) | DepthAI platform supports different ways of perceiving depth: passive stereo depth perception, active stereo depth perception and time-of-flight depth perception [^352]. | 2018 |
| [Magazino GmbH](https://www.magazino.eu/?lang=en) | An image processing pipeline for ROS for Magazino (see [`magazino/image_pipeline`](https://github.com/magazino/image_pipeline)). | 2014 |
| [Magna International](https://www.magna.com/) | ROS Perception drivers (laser_filters) for Magna International (see [`MagnaRobotics/laser_filters`](https://github.com/MagnaRobotics/laser_filters)). | 1957 |
| [MAP IV](https://www.map4.jp) | slam_gmapping contains a wrapper around gmapping which provides SLAM capabilities for MAP IV (see [`MapIV/slam_gmapping`](https://github.com/MapIV/slam_gmapping)). | 2016 |
| [Mech-Mind Robotics](https://www.mech-mind.com/) | The company is developing software solutions for industrial robots. Its software solutions include robotic vision (2D/3D), advanced programming models, and fast environment perception [^354]. | 2016 |
| [Milvus Robotics](https://milvusrobotics.com) | ROS Perception drivers (laser_filters) for Milvus Robotics (see [`milvusrobotics/laser_filters`](https://github.com/milvusrobotics/laser_filters)). | 2011 |
| [Miso Robotics](https://misorobotics.com) | ros2 vision_opencv contains packages to interface ROS 2 with OpenCV (see [`MisoRobotics/vision_opencv`](https://github.com/MisoRobotics/vision_opencv)) and an image processing pipeline for ROS (see [`MisoRobotics/image_pipeline`](https://github.com/MisoRobotics/image_pipeline)) for Miso Robotics. | 2016 |
| [Mojin Robotics GmbH](http://www.mojin-robotics.de) | Provides nodes to assemble point clouds from either LaserScan or PointCloud messages for Mojin Robotics (see [`mojin-robotics/laser_assembler`](https://github.com/mojin-robotics/laser_assembler)). | 2015 |
| [Motius](https://motius.de/) | ROS Perception drivers (laser_filters) for Motius (see [`motius/laser_filters`](https://github.com/motius/laser_filters)). | 2013 |
| [NakAI Robotics](https://nakairobotics.com) | ROS Perception package (depthimage_to_laserscan) that converts a depth image to a laser scan for use with navigation and localization for NakAI Robotics (see [`nakai-robotics/depthimage_to_laserscan`](https://github.com/nakai-robotics/depthimage_to_laserscan)). | 2021 |
| [Nearthlab](http://nearthlab.com) | ros2 vision_opencv contains packages to interface ROS 2 with OpenCV for Nearthlab (see [`nearthlab/vision_opencv`](https://github.com/nearthlab/vision_opencv)). | 2015 |
| [Neobotix GmbH](https://www.neobotix-robots.com/homepage) | slam_gmapping contains a wrapper around gmapping which provides SLAM capabilities for Neobotix (see [`neobotix/slam_gmapping`](https://github.com/neobotix/slam_gmapping)). | 2010 |
| [Nexuni Co. Ltd.](www.nexuni.com) | ROS Perception drivers (laser_filters) for Nexuni (see [`nexuni/laser_filters`](https://github.com/nexuni/laser_filters)), slam_gmapping contains a wrapper around gmapping which provides SLAM capabilities (see [`nexuni/slam_gmapping`](https://github.com/nexuni/slam_gmapping)) and ROS Perception package (depthimage_to_laserscan) that converts a depth image to a laser scan for use with navigation and localization (see [`nexuni/depthimage_to_laserscan`](https://github.com/nexuni/depthimage_to_laserscan)) for Nexuni. | 2019 |
| [NODE Robotics](http://www.node-robotics.com) | ros2 vision_opencv contains packages to interface ROS 2 with OpenCV for NODE Robotics (see [`node-robotics/vision_opencv`](https://github.com/node-robotics/vision_opencv)). | 2020 |
| [NVIDIA](https://www.nvidia.com/es-es/autonomous-machines/robotics/) | NVIDIA DRIVE® Perception enables robust perception of obstacles, paths, and wait conditions (such as stop signs and traffic lights) right out of the box with an extensive set of pre-processing, post-processing, and fusion processing modules [^357]. | 1993 |
| [Orbbec](http://www.orbbec3d.com) | The Astra + is Orbbec’s latest 3D depth perception solution [^358]. | 2013 |
| [Ouster](https://ouster.com/) | Ouster launches digital Lidar perception platform Ouster Gemini [^359]. | 2015 |
| [Outsight](https://outsight.ai/) | Outsight develops a edge computing device that can pre-processes 3D LiDAR data from sensors built by different manufacturers [^360]. | 2019 |
| [Owl Autonomous Imaging](http://www.owlai.us) | Owl autonomous imaging launches monocular 3D thermal rangerTM computer vision for ADAS & autonomous vehicles [^353]. | 2018 |
| [PAL Robotics](https://pal-robotics.com/) | PCL (Point Cloud Library) ROS interface stack for PAL Robotics (see [`pal-robotics-forks/perception_pcl`](https://github.com/pal-robotics-forks/perception_pcl)), an image processing pipeline for ROS (see [`pal-robotics-forks/image_pipeline`](https://github.com/pal-robotics-forks/image_pipeline)) and ROS Perception package (depthimage_to_laserscan) that converts a depth image to a laser scan for use with navigation and localization for PAL Robotics (see [`pal-robotics-forks/depthimage_to_laserscan`](https://github.com/pal-robotics-forks/depthimage_to_laserscan)). | 2004 |
| [Photoneo](https://www.photoneo.com/) | Photoneo unveils new robotic possibilities with new color 3D camera [^355]. | 2013 |
| [Plus One Robotics](https://plusonerobotics.com/) | An image processing pipeline for ROS for Plus One Robotics (see [`plusone-robotics/image_pipeline`](https://github.com/plusone-robotics/image_pipeline)). | 2016 |
| [PROPHESEE](https://www.prophesee.ai) | PROPHESEE exhibited its bio-inspired machine vision for the automotive industry at AutoSens – The Automotive Sensor and Perception Conference [^356]. | 2014 |
| [Quanergy](http://www.quanergy.com) | Quanergy offers a comprehensive product portfolio, including hardware sensors and perception software [^361]. | 2012 |
| [Quasi Robotics](https://quasi.ai) | An image processing pipeline for ROS for Quasi Robotics (see [`quasi-robotics/image_pipeline`](https://github.com/quasi-robotics/image_pipeline)). | 2017 |
| [Rapyuta Robotics](https://www.rapyuta-robotics.com/) | PCL (Point Cloud Library) ROS interface stack for Rapyuta Robotics (see [`rapyuta-robotics/perception_pcl`](https://github.com/rapyuta-robotics/perception_pcl)). | 2014 |
| [Reebot](https://reebot.tech/) | Use of ROS perception since ROS INDIGO for former prototypes and new design, also owner of robosense simulator (see [`robosense_simulator`](https://github.com/tomlogan501/robosense_simulator). | 2021 |
| [Relay Robotics](https://www.relayrobotics.com/) | Catkinized ROS Package of the OpenKarto Library (LGPL3) for Relay Robotics (see [`savioke/open_karto`](https://github.com/savioke/open_karto)). | 2013 |
| [RoboK](http://robok.ai) | ros2 vision_opencv contains packages to interface ROS 2 with OpenCV for RoboK (see [`RoboK2017/vision_opencv`](https://github.com/RoboK2017/vision_opencv)). | 2017 |
| [RoboSense](https://www.robosense.ai) | They offer RS-LiDAR-Perception, the AI Perception Software based on 3D LiDAR point cloud, specially developed for autonomous driving environment perception [^362]. | 2014 |
| [RIOS Intelligent Machines](http://www.rios.ai) | AR tag tracking library for ROS for RIOS Intelligent Machines (see [`rios-ai/ar_track_alvar`](https://github.com/rios-ai/ar_track_alvar)). | 2018 |
| [RoboTech Vision](https://robotechvision.com/) | An image processing pipeline for ROS for RoboTech Vision (see [`robotechvision/image_pipeline`](https://github.com/robotechvision/image_pipeline)). | 2013 |
| [Rover Robotics](https://roverrobotics.com/) | Colconized ROS Package of the OpenKarto Library (LGPL3) for Rover Robotics (see [`RoverRobotics-forks/open_karto_ros2`](https://github.com/RoverRobotics-forks/open_karto_ros2)). | 2018 |
| [RUVU](https://ruvu.nl/) | Common code for working with images in ROS for RUVU (see [`ruvu/image_common`](https://github.com/ruvu/image_common)). | 2017 |
| [SAGA ROBOTICS](https://sagarobotics.com/) | slam_gmapping contains a wrapper around gmapping which provides SLAM capabilities for SAGA ROBOTICS (see [`SAGARobotics/slam_gmapping`](https://github.com/SAGARobotics/slam_gmapping)). | 2016 |
| [SEAOS Inc.](https://www.seaos.co.jp/) | AR tag tracking library for ROS for Rover Robotics (see [`SeaosRobotics/ar_track_alvar`](https://github.com/SeaosRobotics/ar_track_alvar)). | 2000 |
| [Seasony](https://www.seasony.io/) | ROS Perception drivers (laser_filters) (see [`seasony-org/laser_filters`](https://github.com/seasony-org/laser_filters)) and provides the LaserProjection class for turning laser scan data into point clouds (see [`seasony-org/laser_geometry`](https://github.com/seasony-org/laser_geometry)) for Seasony. | 2018 |
| [SENSYN ROBOTICS](https://www.sensyn-robotics.com) | ros2 vision_opencv contains packages to interface ROS 2 with OpenCV for SENSYN ROBOTICS (see [`sensyn-robotics/vision_opencv-pub`](https://github.com/sensyn-robotics/vision_opencv-pub)). | 2015 |
| [SEQSENSE](https://www.seqsense.com/) | An image processing pipeline for ROS for SEQSENSE (see [`seqsense/image_pipeline`](https://github.com/seqsense/image_pipeline)). | 2016 |
| [Shield AI](https://shield.ai/) | Provides the LaserProjection class for turning laser scan data into point clouds for Shield AI (see [`shield-ai/laser_geometry`](https://github.com/shield-ai/laser_geometry)). | 2015 |
| [SICK Sensor Intelligence](http://www.sick.com) | SICK’s portfolio of safety solutions enables unimpaired and safe human intervention into the robot system and reduces downtime in production. This can be achieved with an adaptive perception of the environment with the aid of intelligent, rugged, and reliable sensors and safe systems [^363]. | 1946 |
| [SLAMcore](http://www.slamcore.com) | SLAMcore released the SpatialAI SDK in 2021 to enable high quality perception for autonomous mobile robots [^364]. | 2016 |
| [Smart Machine](http://www.oxin.nz) | PCL (Point Cloud Library) ROS interface stack (see [`oxin-ros/perception_pcl`](https://github.com/oxin-ros/perception_pcl)) and ros2 vision_opencv contains packages to interface ROS 2 with OpenCV (see [`oxin-ros/vision_opencv`](https://github.com/oxin-ros/vision_opencv)) for Smart Machine. | 2018 |
| [Smile Robotics, Inc.](smilerobotics.com) | ROS Perception drivers (laser_filters) for Smile Robotics (see [`smilerobotics/laser_filters`](https://github.com/smilerobotics/laser_filters)). | 2019 |
| [SoftBank Robotics](https://www.softbankrobotics.com/emea/en) | ROS Perception package (depthimage_to_laserscan) that converts a depth image to a laser scan for use with navigation and localization for SoftBank Robotics (see [`softbankrobotics-research/depthimage_to_laserscan`](https://github.com/softbankrobotics-research/depthimage_to_laserscan)). | 2005 |
| [Solid State of Mind](https://solidstateofmind.com/) | Develop an artificial intelligence capable of adapting to real-time changes in the environment. A set of plugins for publishing and subscribing to sensor_msgs/Image topics in representations other than raw pixel data for Solid State of Mind (see [`Solid-State-of-Mind-Inc/image_transport_plugins`](https://github.com/Solid-State-of-Mind-Inc/image_transport_plugins)). | 2020 |
| [SOMATIC](http://getsomatic.com) | Make bathroom cleaning robots for commercial spaces like office buildings. A set of plugins for publishing and subscribing to sensor_msgs/Image topics in representations other than raw pixel data for SOMATIC (see [`getsomatic/image_transport_plugins`](https://github.com/getsomatic/image_transport_plugins)). | 2018 |
| [Square Robot Inc.](http://www.squarerobots.com) | An image processing pipeline for ROS for Square Robot Inc. (see [`squarerobot/image_pipeline`](https://github.com/squarerobot/image_pipeline)). | 2016 |
| [Stereolabs](https://www.stereolabs.com/) | They announced the release of the latest ZED SDK with Stereolabs’ new Neural Depth perception module based on deep neural networks for advanced robotics and spatial analytics applications [^367]. | 2010 |
| [STMicroelectronics](https://www.st.com/) | AdaSky and STMicroelectronics cooperate to bring day/night high-resolution vision and perception to cars [^366]. | 1987 |
| [Stratom](http://www.stratom.com) | PCL (Point Cloud Library) ROS interface stack (see [`StratomInc/perception_pcl`](https://github.com/StratomInc/perception_pcl)) and common code for working with images in ROS (see [`StratomInc/image_common`](https://github.com/StratomInc/image_common)) for Stratom. | 2001 |
| [Synkar Autonomous](http://www.synkar.com) | A set of plugins for publishing and subscribing to sensor_msgs/Image topics in representations other than raw pixel data (see [`Synkar/image_transport_plugins`](https://github.com/Synkar/image_transport_plugins)), an image processing pipeline for ROS (see [`Synkar/image_pipeline`](https://github.com/Synkar/image_pipeline)), ros2 vision_opencv contains packages to interface ROS 2 with OpenCV (see [`Synkar/vision_opencv`](https://github.com/Synkar/vision_opencv)) and common code for working with images in ROS (see [`Synkar/image_common`](https://github.com/Synkar/image_common)) for Synkar Autonomous. | 2019 |
| [TAILOS](https://tailos.com/) | ROS Perception package (depthimage_to_laserscan) that converts a depth image to a laser scan for use with navigation and localization for TAILOS (see [`tailosinc/depthimage_to_laserscan`](https://github.com/tailosinc/depthimage_to_laserscan)). | 2015 |
| [Tangram Vision](https://www.tangramvision.com/) | Tangram Vision’s team of expert perception engineers helps robotics and autonomous vehicle companies solve complex perception challenges like sensor fusion, streaming, multi-sensor calibration, diagnostics, and data management to develop and deploy autonomy at scale [^368]. | 2020 |
| [TDK InvenSense](http://www.invensense.com) | TDK announced Coursa Drive, the world’s first high-precision inertial-aided positioning software for autonomous vehicles [^369]. | 2003 |
| [Texas Instruments](https://www.ti.com/applications/industrial/robotics.html) | The Texas Instruments Perception Toolkit (PTk) is a software package for accelerating sensing and perception capabilities, particularly for prototyping automotive and robotic applications [^365]. | 1930 |
| [TIER IV](https://tier4.jp/en/) | PCL (Point Cloud Library) ROS interface stack (see [`tier4/perception_pcl`](https://github.com/tier4/perception_pcl)), an image processing pipeline for ROS (see [`tier4/image_pipeline`](https://github.com/tier4/image_pipeline)) and a set of plugins for publishing and subscribing to sensor_msgs/Image topics in representations other than raw pixel data (see [`tier4/image_transport_plugins`](https://github.com/tier4/image_transport_plugins)) for TIER IV. | 2015 |
| [TinyMobileRobots](https://tinymobilerobots.com/) | Converts a 3D Point Cloud into a 2D laser scan for TinyMobileRobots (see [`tinymobilerobots/pointcloud_to_laserscan`](https://github.com/tinymobilerobots/pointcloud_to_laserscan)). | 2015 |
| [Toposens](http://www.toposens.com) | They make you mobile robot system safer and most efficient by adding another layer of sensory perception: accustic sensor technology for next-level robotic safety [^370]. | 2015 |
| [Toyota Research Institute](https://www.tri.global/) | Converts a 3D Point Cloud into a 2D laser scan for Toyota (see [`ToyotaResearchInstitute/pointcloud_to_laserscan`](https://github.com/ToyotaResearchInstitute/pointcloud_to_laserscan)). | 2016 |
| [TuSimple](http://www.tusimple.com) | ros2 vision_opencv contains packages to interface ROS 2 with OpenCV for TuSimple (see [`TuSimple/vision-opencv`](https://github.com/TuSimple/vision-opencv)). | 2015 |
| [Ubica Robotics GmbH](https://www.ubica-robotics.eu) | A set of plugins for publishing and subscribing to sensor_msgs/Image topics in representations other than raw pixel data (see [`ubica-robotics/image_transport_plugins`](https://github.com/ubica-robotics/image_transport_plugins)) and an image processing pipeline for ROS (see [`ubica-robotics/image_pipeline`](https://github.com/ubica-robotics/image_pipeline)) for Ubica Robotics. | 2020 |
| [Uhnder](http://www.uhnder.com/) | Uhnder become the first company to mass produce a fully automotive qualified, 4D digital imaging radar-on-chip that will transform our roadways, making possible next-generation ADAS, autonomous vehicles and automated mobility applications [^371]. | 2015 |
| [Universal Field Robots](http://universalfieldrobots.com.au/) | ros2 vision_opencv contains packages to interface ROS 2 with OpenCV for Universal Field Robots (see [`universal-field-robots/vision_opencv`](https://github.com/universal-field-robots/vision_opencv)). | 2015 |
| [Unmanned Life](http://unmanned.life) | An image processing pipeline for ROS for Unmanned Life (see [`umdlife/image_pipeline`](https://github.com/umdlife/image_pipeline)). | 2015 |
| [Vaarst](https://vaarst.com/) | PCL (Point Cloud Library) ROS interface stack for Vaarst (see [`rovco/perception_pcl`](https://github.com/rovco/perception_pcl)). | 2015 |
| [Vortex Robotics](http://www.vortex-co.com) | ros2 vision_opencv contains packages to interface ROS 2 with OpenCV for Vortex Robotics (see [`VorteX-co/vision_opencv`](https://github.com/VorteX-co/vision_opencv)). | 2016 |
| [WINGCOPTER](https://wingcopter.com/) | Manufacturer of unmanned, eVTOL, fixed-wing aircrafts for commercial and humanitarian applications. Hiring engineers with experience in ROS ([(Senior) Data Engineer (m/f/d)](https://careers.wingcopter.com/en/p/en/jobs/10067/senior-data-engineer-mfd)). | 2017 |
| [Wyca Robotics](https://www.wyca-robotics.fr/) | ROS Perception drivers (laser_filters) for Wyca Robotics (see [`wyca-robotics/laser_filters`](https://github.com/wyca-robotics/laser_filters)). | 2015 |
| [Yaak](http://www.yaak.ai) | ros2 vision_opencv contains packages to interface ROS 2 with OpenCV for Yaak (see [`yaak-ai/vision_opencv`](https://github.com/yaak-ai/vision_opencv)). | 2020 |
| [Yujin Robot](https://yujinrobot.com/) | ros2 vision_opencv contains packages to interface ROS 2 with OpenCV for Yujin Robot (see [`yujinrobot/vision_opencv`](https://github.com/yujinrobot/vision_opencv)). | 1988 |
| [Zendar](https://www.zendar.io/) | Develop high-definition radar for autonomous vehicles Hiring Perception engineers ([Senior / Lead Software Engineer - Perception](https://zendar.breezy.hr/p/d1d6882cbd7c-senior-lead-software-engineer-perception?source=www.google.com&popup=true)) [^375]. | 2017 |
| [Zivid](https://www.zivid.com) | The Ascent Pick system uses a perception engine for sensing and understanding its environment [^376]. | 2015 |

[^1]: Robot Immune System https://aliasrobotics.com/ris.php
[^2]: https://whill.inc/jp/
[^3]: https://whill.inc/jp/news/25181
[^4]: https://6river.com/
[^5]: Shopify acquires 6 River Systems for $450 million to expand its AI-powered fulfillment network https://venturebeat.com/commerce/shopify-acquires-6-river-systems-for-450-million-to-expand-its-ai-powered-fulfillment-network/
[^6]: http://lidar.yujinrobot.com/?p=3481&ckattempt=1
[^7]: http://lidar.yujinrobot.com/?p=3481
[^8]: https://assetstore.unity.com/packages/tools/physics/ros-107085#description
[^9]: https://www.universal-robots.com/articles/ur/application-installation/universal-robots-ros-driver/
[^10]: http://www.vicarious.com/solutions/
[^11]: https://robotics.tokyo/products/torobo/
[^12]: https://robotics.tokyo/products/torobo_eye/
[^13]: https://tier4.jp/en/autoware/
[^14]: https://www.terraclear.com/products/rock-picker
[^16]: http://wiki.ros.org/sick_scan
[^17]: https://www.shadowrobot.com/dexterous-hand-series/
[^18]: https://www.sbg-systems.com/support/technology/ros-driver-for-sbg-imu-ahrs-ins/
[^19]: https://www.sbg-systems.com/products/
[^21]: https://roverrobotics.com/blogs/guides/rover-zero-ros-topic-list
[^23]: https://www.aubo-cobot.com/public/iproduct3
[^24]: https://www.dataspeedinc.com/adas-by-wire-system/
[^26]: https://coex.tech/education
[^27]: https://coex.tech/pelicanairdelivery
[^28]: https://www.botsandus.com/platform
[^29]: https://www.bitcraze.io/products/crazyflie-2-1/
[^31]: https://www.innok-robotics.de/en/products/
[^32]: https://www.cogniteam.com/nimbus
[^33]: https://assistive.kinovarobotics.com/product/jaco-robotic-arm
[^34]: https://milvusrobotics.com/products/seit
[^35]: https://www.softbankrobotics.com/emea/en/pepper
[^37]: https://www.motoman.com/en-us/products/robots/industrial
[^40]: https://www.ubiquityrobotics.com/products-magni/
[^41]: https://www.rethinkrobotics.com/sawyer
[^42]: https://www.rapyuta-robotics.com/rapyuta-io/
[^43]: https://www.rapyuta-robotics.com/solutions-pa-amr/
[^44]: https://github.com/plusone-robotics
[^45]: https://www.pixmoving.com/robobus
[^46]: https://www.pilz.com/en-INT/products/sensor-technology
[^47]: https://www.pilz.com/en-INT/products/relay-modules
[^48]: https://www.pilz.com/en-INT/products/controllers
[^49]: https://www.pilz.com/en-INT/products/drive-technology
[^50]: https://mygita.com/how-it-works
[^51]: https://www.basicmicro.com/motor-controller
[^52]: https://svenzva.com/revel/
[^53]: https://www.zmp.co.jp/products/lrb
[^54]: https://www.zmp.co.jp/products/sensor
[^55]: https://www.zmp.co.jp/products/robocar-innovation
[^56]: https://luxai.com/humanoid-social-robot-for-research-and-teaching/
[^57]: https://crosswing.com/nav2/
[^59]: https://niryo.com/robotic-solution-education-research/ned2-robotics-arm/
[^60]: http://www.xaxxon.com/oculusprime/slamnavigator
[^61]: https://rt-net.jp/works_category/allproducts/
[^62]: https://schunk.com/us_en/gripping-systems/category/gripping-systems/
[^63]: https://schunk.com/us_en/clamping-technology/category/clamping-technology/
[^64]: https://www.trossenrobotics.com/robotic-arms.aspx
[^65]: https://www.botsync.co/mag.html
[^66]: https://strobotics.com/products.htm
[^69]: https://www.brisa.tech/#windrose
[^70]: https://www.swri.org/industries/industrial-robotics-automation
[^71]: https://www.swri.org/robotics-research-development
[^72]: https://www.swri.org/ros-industrial
[^73]: https://www.swri.org/industry/sensing-perception-automotive-software-unmanned-systems-automotive-software-electronics
[^74]: https://www.swri.org/robot-operating-system-ros
[^77]: https://www.dfautomation.com/autonomous-mobile-robot-amr-series
[^79]: https://accerion.tech/solutions/triton/
[^80]: https://movigorobotics.borealtech.com/en/services/
[^81]: https://github.com/DLu/ros_map/tree/master/data
[^82]: https://www.incubedit.com/product/robot-localization-and-navigation-software/
[^83]: https://www.unitree.com/products/go1
[^84]: https://www.roboticsbusinessreview.com/rbr50-company/formant-puts-data-collection-analysis-and-robot-management-in-the-cloud/
[^85]: https://developer.parrot.com/
[^86]: http://wiki.ros.org/Robots/TIAGo
[^87]: https://www.neobotix-robots.com/products/ros
[^88]: https://www.mov.ai/technology/
[^89]: https://www.mathworks.com/products/ros.html
[^90]: https://rosindustrial.org/news/2015/5/26/company-spotlight-magazino-gmbh
[^91]: https://www.svlsimulator.com/product/simulation/
[^92]: https://youtu.be/KhtJoBp16T0
[^93]: https://discourse.ros.org/t/iron-ox-two-robotics-software-positions-for-automating-farming/9898
[^94]: https://edu.irobot.com/what-we-offer/create3
[^95]: http://wiki.ros.org/IntelROSProject
[^96]: https://husarnet.com/docs/tutorial-ros2
[^97]: https://husarion.com/tutorials/ros-tutorials/1-ros-introduction/
[^98]: https://discourse.ros.org/t/honeybee-robotics-software-engineer-brooklyn-new-york-usa/1769
[^99]: https://docs.hello-robot.com/#ros-interface
[^100]: https://elfincollaborativerobot.eu/index.php?option=com_content&view=article&id=129&Itemid=878&lang=en
[^102]: https://www.greenzie.com/product
[^103]: http://edu.gaitech.hk/
[^104]: https://robots.ros.org/fetch/
[^105]: https://www.eprosima.com/index.php/company-all/news/67-fast-rtps-is-adopted-by-ros
[^106]: https://www.energid.com/blog/is-actin-for-you
[^107]: https://www.dronedeploy.com/blog/connecting-robots-at-scale
[^108]: https://developer.dji.com/onboard-sdk/
[^109]: https://www.roboticsbusinessreview.com/rbr50-company/diligent-robotics-introduces-moxi-mobile-manipulator-in-hospitals/
[^110]: https://concurrent-rt.com/support/resources/white-papers/using-ros-with-redhawk-linux-on-the-nvidia-jetson-tx2/
[^111]: http://wiki.ros.org/aceinna_openimu
[^112]: https://www.sevensense.ai/product/alphasense-position
[^113]: https://static1.squarespace.com/static/51df34b1e4b08840dcfd2841/t/62b6223162567f5d658db7f0/1656103480255/RICA+2022+Event+Template_Aerobotix.pdf
[^114]: https://static1.squarespace.com/static/51df34b1e4b08840dcfd2841/t/62b6219f793dbb33d003decd/1656103332379/The+ROS-Industrial+Consortium+Americas_An+An+analysis+of+how+the+ARM+projects+have+used+and+benefited+from+using+ROS-I+during+their+development_Arnie+Kravitz_uploaded.pdf
[^115]: https://roscon.ros.org/2015/presentations/ROSCon-Automated-Driving.pdf
[^116]: https://www.imandra.ai/core
[^120]: https://apptronik.com/our-work/
[^122]: https://ubcagrobot.com/agrobot/

[^124]: https://torc.ai/technology/
[^126]: https://www.seoulrobotics.org/lidar-processing-units
[^127]: https://aimotive.com/-/aisim-integrates-ros
[^128]: https://blackberry.qnx.com/en/campaigns/2021/robotics-software-solutions
[^129]: https://www.prophesee.ai/event-based-sensor-packaged/
[^130]: https://innoviz.tech/wp-content/uploads/InnovizPro-datasheet_Jul_19.pdf
[^131]: https://rosindustrial.org/ric/current-members/#arc-specialties
[^132]: https://rosindustrial.org/ric/current-members/#amsted-rail
[^133]: https://rosindustrial.org/ric/current-members/#bastian-solutions
[^134]: https://rosindustrial.org/ric/current-members/#boeing
[^135]: https://rosindustrial.org/ric/current-members/#bosch
[^136]: https://rosindustrial.org/ric/current-members/#caterpillar
[^137]: https://rosindustrial.org/ric/current-members/#delta-electronics
[^138]: https://rosindustrial.org/ric/current-members/#glidewell-laboratories
[^139]: https://rosindustrial.org/ric/current-members/#harting
[^140]: https://rosindustrial.org/ric/current-members/#iav
[^141]: https://rosindustrial.org/ric/current-members/#infineon
[^142]: https://rosindustrial.org/ric/current-members/#john-deere
[^143]: https://rosindustrial.org/ric/current-members/#johnson-johnson
[^144]: https://rosindustrial.org/ric/current-members/#kyocera
[^145]: https://rosindustrial.org/ric/current-members/#lely
[^146]: https://rosindustrial.org/ric/current-members/#magna
[^147]: https://rosindustrial.org/ric/current-members/#microsoft
[^148]: https://rosindustrial.org/ric/current-members/#ppm-a-s
[^149]: https://rosindustrial.org/ric/current-members/#process-champ
[^150]: https://rosindustrial.org/ric/current-members/#pushcorp-inc-
[^151]: https://rosindustrial.org/ric/current-members/#quadsat
[^152]: https://rosindustrial.org/ric/current-members/#systems-engineering-consultants-co-ltd-
[^153]: https://rosindustrial.org/ric/current-members/#stogl-robotics
[^154]: https://rosindustrial.org/ric/current-members/#schaeffler
[^155]: https://rosindustrial.org/ric/current-members/#siemens
[^156]: https://rosindustrial.org/ric/current-members/#spirit-aerosystems
[^157]: https://rosindustrial.org/ric/current-members/#tds-technology
[^158]: https://rosindustrial.org/ric/current-members/#tormach
[^159]: https://rosindustrial.org/ric/current-members/#trend-micro
[^160]: https://rosindustrial.org/ric/current-members/#t-systems-international-gmbh
[^161]: https://rosindustrial.org/ric/current-members/#volvo-group
[^162]: https://rosindustrial.org/ric/current-members/#woodside
[^163]: https://rosindustrial.org/ric/current-members/#yokogawa
[^164]: https://roscon.ros.org/2022/
[^165]: https://roscon.ros.org/jp/2021/
[^166]: https://roscon.ros.org/jp/2019/
[^167]: https://roscon.ros.org/world/2020/
[^168]: https://roscon.ros.org/fr/2019/
[^169]: https://roscon.ros.org/2018/
[^170]: https://roscon.ros.org/jp/2018/
[^171]: https://youtu.be/Zj7Qupb6hU8
[^172]: https://www.robotics247.com/article/mitsubishi_electric_announces_new_robot_control_system_designed_to_cut_production_times
[^173]: https://tsukarm.co.jp/xarm-2
[^174]: http://wiki.ros.org/Robots/qbhand
[^175]: https://www.artisense.ai/technology
[^176]: http://wiki.ros.org/applanix
[^177]: https://resources.inertiallabs.com/en-us/knowledge-base/inertial-labs-ros-driver-package
[^179]: http://wiki.ros.org/toposens
ros2-embarks-on-a-mission-to-the-bottom-of-lake-tahoe/17139/1
[^184]: Modbot at Hannover Messe 2016, ROS-Industrial blog https://rosindustrial.org/news/tag/ModBot
[^185]: Apply for Positions at Modbot Inc (SF based Modular Robotics Startup) https://www.ros.org/news/2015/08/apply-for-positions-at-modbot-inc-sf-based-modular-robotics-startup.html
[^186]: HEBI Developer APIs https://www.hebirobotics.com/apis
[^187]: HEBI Robots examples https://wiki.ros.org/hebi_cpp_api_examples
[^188]: Acutronic Robotics fails to find funding for H-ROS for robot hardware https://www.therobotreport.com/acutronic-robotics-h-ros-robot-hardware-fails/
[^189]: https://www.therobotreport.com/fetch-robotics-acquired-by-zebra-technologies-for-290m/
[^190]: Improving the security of Data Distribution Service (DDS) for ROS 2 robotic systems https://news.aliasrobotics.com/improving-security-dds-ros2/
[^191]: SROS2: Usable Cyber Security Tools for ROS 2 https://aliasrobotics.com/files/SROS2.pdf
[^192]: Cybersecurity in the ROS 2 communication middleware, targeting the top 6 DDS implementations https://discourse.ros.org/t/cybersecurity-in-the-ros-2-communication-middleware-targeting-the-top-6-dds-implementations/23254
[^193]: DroneDeploy acquires robotics software startup Rocos https://www.therobotreport.com/dronedeploy-acquires-robotics-software-startu-rocos
[^195]: Drone Solutions Engineer Planck Aerosystems https://www.suasnews.com/2020/07/drone-solutions-engineer-planck-aerosystems/
[^196]: AeroVironment Acquires Planck Aerosystems, a Leading Provider of Advanced Unmanned Aircraft Navigation Solutions https://www.businesswire.com/news/home/20220815005622/en/AeroVironment-Acquires-Planck-Aerosystems-a-Leading-Provider-of-Advanced-Unmanned-Aircraft-Navigation-Solutions
[^197]: telemax EVO RECCE https://www.avinc.com/images/uploads/product_docs/telemax_EVO_Recce_Datasheet_v10_220418.pdf
[^198]: AEROVIRONMENT, INC. FORM 10-K (2010) https://investor.avinc.com/static-files/be0e6367-75b2-4d03-819b-a7253d751d40
[^199]: GreyOrange Expands in U.S. Warehouse Automation Market https://www.roboticsbusinessreview.com/news/greyorange-expands-u-s-warehouse-automation/
[^200]: Discovery UAV https://www.airvolute.com/product/discovery-uav/
[^201]: DroneCore.Suite https://www.airvolute.com/product/dronecore^
[^202]: First Sony drone uses Fast DDS
https://www.eprosima.com/index.php/company-all/news/286-first-sony-drone-uses-fast-dds
[^203]: ROSCon 2018 Madrid: aibo development using ROS https://vimeo.com/293292255
[^205]: Toyota partners with Apex.AI to develop autonomous platform https://electrek.co/2021/04/14/toyota-partners-with-apex-ai-to-develop-autonomous-platform/
[^206]: Customer Success Story Toyota’s Woven Planet https://www.apex.ai/toyota-woven-planet
[^207]: Toyota taps Apex.AI for its autonomous vehicle operating system https://techcrunch.com/2021/04/14/toyota-taps-apex-ai-for-its-autonomous-vehicle-operating-system/
[^210]: ZF Acquires a Stake in Apex.AI https://www.just-auto.com/news/zf-acquires-a-stake-in-apex-ai/
[^212]: Wyca relies on micro-ROS for autonomous indoor robot “Elodie” https://www.eprosima.com/index.php/company-all/news/206-wyca-relies-on-microros-for-robot-elodie
[^213]: Robot Software Engineer at Relay Robotics https://discourse.ros.org/t/robot-software-engineer-at-relay-robotics/27244
[^214]: MOV.AI and Lanner Electronics Announce Fully Integrated Platform Powered by NVIDIA Isaac ROS to Accelerate Robotics Development and Improve Operational Efficiency in Industrial Environments https://www.lannerinc.com/news-and-events/latest-news/mov-ai-and-lanner-electronics-announce-fully-integrated-platform-powered-by-nvidia-isaac-ros-to-accelerate-robotics-development-and-improve-operational-efficiency-in-industrial-environments
[^218]: Introducing the Kria Robotics Stack for Hardware Acceleration in Robotics
https://www.xilinx.com/about/blogs/adaptable-advantage-blog/2021/introducing-the-kria-robotics-stack-for-hardware-acceleration-in.html
[^219]: AMD to Acquire Xilinx, Creating the Industry’s High Performance Computing Leader https://ir.amd.com/news-events/press-releases/detail/977/amd-to-acquire-xilinx-creating-the-industrys-high
[^220]: Webots open-source robot simulator https://github.com/cyberbotics/webots
[^221]: Webots ROS 1 interface https://github.com/cyberbotics/webots_ros
[^222]: Webots ROS 2 interface https://github.com/cyberbotics/webots_ros2
[^223]: Robot simulations on the web https://webots.cloud
[^224]: Robot benchmarks on the web https://robotbenchmark.net
[^225]: Pesticide spraying robot https://youtu.be/B8s5MSlwCGw
[^226]: https://www.doosanrobotics.com/en/Index
[^227]: https://onrobot.com/en
[^234]: ROS: the framework to accelerate your next robotics project https://tryolabs.com/blog/2022/09/15/ros-the-framework-to-accelerate-your-next-robotics-project
[^236]: https://vistion.si/en/ros-2/
[^237]: https://discourse.ros.org/t/senior-slam-engineer-labrador-systems/27502
[^239]: https://www.linkedin.com/jobs/view/3289018523
[^242]: https://www.linkedin.com/jobs/view/3264971272
[^244]: https://www.linkedin.com/jobs/view/3291491344
[^248]: https://www.linkedin.com/jobs/view/3291382311
[^250]: https://www.linkedin.com/jobs/view/3295097708
[^252]: Unbounded Robotics Closes Down https://www.therobotreport.com/unbounded-robotics-closes-down/
[^255]: https://www.linkedin.com/jobs/view/3291923198/
[^257]: https://www.linkedin.com/jobs/view/3219200169
[^259]: https://www.linkedin.com/feed/update/urn:li:activity:6983427857892933633/
[^260]: https://www.linkedin.com/jobs/view/3303184619
[^262]: https://www.linkedin.com/jobs/view/3293827403/
[^263]: https://www.linkedin.com/jobs/view/3302556445/
[^264]: https://hexagondownloads.blob.core.windows.net/public/AutonomouStuff/wp-content/uploads/2018/09/Welcome_AutonomouStuff_Final.pdf
[^265]: https://www.linkedin.com/jobs/view/3306515734
[^267]: https://www.linkedin.com/jobs/view/3300413498
[^268]: https://discourse.ros.org/t/roboticist-sf-bay-area/27657
[^269]: Johnson & Johnson Announces Agreement to Acquire Remaining Stake in Verb Surgical Inc. https://www.jnj.com/johnson-johnson-announces-agreement-to-acquire-remaining-stake-in-verb-surgical-inc
[^271]: https://www.prnewswire.com/news-releases/numurus-secures-2-million-to-grow-its-open-source-robotic-applications-software-business-301658096.html
[^272]: https://techcrunch.com/2022/10/26/ford-vw-backed-argo-ai-is-shutting-down/
[^273]: https://www.therobotreport.com/ford-ceo-gives-insight-into-argo-ais-shutdown/
[^274]: https://www.linkedin.com/jobs/view/3328013334
[^276]: https://www.linkedin.com/jobs/view/3178546296
[^277]: https://www.linkedin.com/jobs/view/3347981895
[^278]: https://www.linkedin.com/jobs/view/3348691229
[^280]: https://www.flexiv.com/en/newslist?id=159
[^283]: https://jobs.rosen-group.com/Job/3765
[^285]: https://www.linkedin.com/jobs/view/3354974779
[^286]: https://www.stellantis.com/en/news/press-releases/2022/november/stellantis-accelerates-autonomous-driving-journey-with-acquisition-of-aimotive-a-leading-artificial-intelligence-and-autonomous-driving-start-up?adobe_mc_ref=
[^287]: https://aimotive.com/w/stellantis-accelerates-autonomous-driving-journey-with-acquisition-of-aimotive-a-leading-artificial-intelligence-and-autonomous-driving-start-up
[^290]: https://www.linkedin.com/jobs/view/3026369126
[^292]: https://www.linkedin.com/jobs/view/3286634248
[^298]: https://www.linkedin.com/jobs/view/3378140574
[^299]: https://www.luxoft.com/pr/dxc-technology-completes-acquisition-of-leading-digital-innovator-luxoft/
[^300]: https://news.accelerationrobotics.com/acceleration-robotics-expands-to-india-and-takes-over-technoyantra-to-grow-in-asia/
[^301]: https://spectrum.ieee.org/alphabet-intrinsic-open-robotics-acquisition
[^302]: https://techcrunch.com/2022/08/05/amazon-is-buying-irobot-for-1-7b/
[^303]: https://www.therobotreport.com/aptiv-acquiring-wind-river-for-43b/
[^305]: https://fetchrobotics.com/fetch-robotics-blog/zebra-technologies-to-acquire-fetch-robotics/
[^306]: https://news.gm.com/newsroom.detail.html/Pages/news/us/en/2016/mar/0311-cruise.html
[^308]: https://www.linkedin.com/feed/update/urn:li:activity:7020419329082966016?commentUrn=urn%3Ali%3Acomment%3A%28activity%3A7020419329082966016%2C7020576945654419456%29
[^309]: https://cobiotx.unitedrobotics.group/uploads/PR_Robotnik_ENG.pdf
[^310]: ZED ROS Wrapper - https://github.com/stereolabs/zed-ros-wrapper
[^311]: ZED ROS2 Wrapper - https://github.com/stereolabs/zed-ros2-wrapper
[^312]: ZED ROS Examples - https://github.com/stereolabs/zed-ros-examples
[^313]: ZED ROS2 Examples - https://github.com/stereolabs/zed-ros2-examples
[^314]: Robotiq offering ROS support for their technology https://dof.robotiq.com/discussion/2634/how-to-communicate-to-the-robotiq-2f-85-gripper-via-ros-melodic-and-ur10e
[^315]: NODE's view on ROSification https://node-robotics.com/nodes-view-on-rosification/
[^316]: https://blueatlasrobotics.com/
[^330]: https://iot-automotive.news/aeva-introduces-aeries-ii-the-worlds-first-4d-lidar-with-camera-level-resolution/
[^331]: https://www.aeye.ai/press-releases/dynamic-vixels/
[^332]: https://www.analog.com/en/applications/technology/lidar.html
[^333]: https://arberobotics.com/perception/
[^334]: https://www.blickfeld.com/lidar-sensor-products/percept/
[^335]: https://www.bosch.com/research/know-how/success-stories/superhuman-perception/
[^336]: https://www.cepton.com/products/helius
[^337]: https://conti-engineering.com/perception-development-kit-pdk/
[^338]: https://www.denso.com/global/en/news/newsroom/2021/20210119-g01/
[^339]: https://dreamvu.com/alia/
[^340]: https://www.hesaitech.com/hesai-technology-announces-new-lidar-design-win-with-saics-rising-auto/
[^341]: https://www.silc.com/hokuyo-silc-technologies-collaborate-to-bring-4d-lidar-technology-to-industrial-automation-and-robotics-applications/
[^342]: https://www.honeywell.com/us/en/press/2021/09/honeywell-introduces-new-robotic-technology-to-help-warehouses-boost-productivity-reduce-injuries
[^343]: https://www.linkedin.com/jobs/view/1682602369/
[^344]: https://www.infineon.com/cms/en/about-infineon/press/market-news/2022/INFPSS202206-092.html
[^345]: https://thinklucid.com/lucid-presents-new-helios2-time-of-flight-camera-with-hdr-and-high-speed-modes-for-precise-3d-object-detection-and-measurement-at-control-2022/
[^346]: https://innoviz.tech/perception-software
[^347]: https://www.intel.com/content/www/us/en/docs/ei-for-amr/developer-guide/2022-3-1/perception.html
[^348]: https://www.kudan.io/
[^349]: https://leddartech.com/
[^350]: https://www.livoxtech.com/mid-360
[^351]: https://www.luminartech.com/updates/luminar-launches-perception-engine-with-subscription-service
[^352]: https://docs.luxonis.com/en/latest/pages/depth/
[^353]: https://www.yolegroup.com/industry-news/owl-autonomous-imaging-launches-monocular-3d-thermal-rangertm-computer-vision-for-adas-autonomous-vehicles/
[^354]: https://www.thoughtsmag.com/mech-mind-robotics-and-the-ubiquity-of-robots/
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[^356]: https://www.prophesee.ai/2017/09/19/chronocam-exhibiting-at-autosens-2017/
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[^380]: https://otto-project.golf/