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https://github.com/FORTH-ModelBasedTracker/MocapNET
We present MocapNET, a real-time method that estimates the 3D human pose directly in the popular Bio Vision Hierarchy (BVH) format, given estimations of the 2D body joints originating from monocular color images. Our contributions include: (a) A novel and compact 2D pose NSRM representation. (b) A human body orientation classifier and an ensemble of orientation-tuned neural networks that regress the 3D human pose by also allowing for the decomposition of the body to an upper and lower kinematic hierarchy. This permits the recovery of the human pose even in the case of significant occlusions. (c) An efficient Inverse Kinematics solver that refines the neural-network-based solution providing 3D human pose estimations that are consistent with the limb sizes of a target person (if known). All the above yield a 33% accuracy improvement on the Human 3.6 Million (H3.6M) dataset compared to the baseline method (MocapNET) while maintaining real-time performance
https://github.com/FORTH-ModelBasedTracker/MocapNET
2d-to-3d 3d-animation 3d-pose-estimation bvh bvh-format computer-vision demo ensemble gesture-recognition mocap neural-network pose-estimation real-time rgb-images tensorflow webcam
Last synced: about 2 months ago
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We present MocapNET, a real-time method that estimates the 3D human pose directly in the popular Bio Vision Hierarchy (BVH) format, given estimations of the 2D body joints originating from monocular color images. Our contributions include: (a) A novel and compact 2D pose NSRM representation. (b) A human body orientation classifier and an ensemble of orientation-tuned neural networks that regress the 3D human pose by also allowing for the decomposition of the body to an upper and lower kinematic hierarchy. This permits the recovery of the human pose even in the case of significant occlusions. (c) An efficient Inverse Kinematics solver that refines the neural-network-based solution providing 3D human pose estimations that are consistent with the limb sizes of a target person (if known). All the above yield a 33% accuracy improvement on the Human 3.6 Million (H3.6M) dataset compared to the baseline method (MocapNET) while maintaining real-time performance
- Host: GitHub
- URL: https://github.com/FORTH-ModelBasedTracker/MocapNET
- Owner: FORTH-ModelBasedTracker
- License: other
- Created: 2019-07-05T11:13:29.000Z (about 5 years ago)
- Default Branch: master
- Last Pushed: 2024-06-14T14:22:17.000Z (3 months ago)
- Last Synced: 2024-06-14T15:36:08.667Z (3 months ago)
- Topics: 2d-to-3d, 3d-animation, 3d-pose-estimation, bvh, bvh-format, computer-vision, demo, ensemble, gesture-recognition, mocap, neural-network, pose-estimation, real-time, rgb-images, tensorflow, webcam
- Language: C++
- Homepage: https://www.youtube.com/watch?v=Jgz1MRq-I-k
- Size: 28.6 MB
- Stars: 820
- Watchers: 33
- Forks: 133
- Open Issues: 14
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Metadata Files:
- Readme: README.md
- License: license.txt
- Citation: citation.bib