my-awesome-list
List of learning resources, and other good stuff
https://github.com/jack06215/my-awesome-list
Last synced: 20 days ago
JSON representation
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Research Papers
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Gagazine
- An Effective Rigidity Constraint for Improving RANSAC in Homography Estimation
- Speeding-up homography estimation in mobile devices
- An Effective Rigidity Constraint for Improving RANSAC in Homography Estimation
- An Effective Rigidity Constraint for Improving RANSAC in Homography Estimation
- An Effective Rigidity Constraint for Improving RANSAC in Homography Estimation
- An Effective Rigidity Constraint for Improving RANSAC in Homography Estimation
- An Effective Rigidity Constraint for Improving RANSAC in Homography Estimation
- Fast Keypoint Recognition using Random Ferns
- An Improved ORB Algorithm of Extracting and Matching Features
- Pose Tracking from Natural Features on Mobile Phones
- An Effective Rigidity Constraint for Improving RANSAC in Homography Estimation
- Speeding-up homography estimation in mobile devices
- Fast Keypoint Recignition in 10 lines of code
- Visual Object Tracking via random ferns based classification
- Local Invariant Feature Detectors: A Survey
- Binary Feature comparison
- Online Learning of Patch Perspective Rectification for Efficient Object Detection
- Learning real-time Prespective patch rectification
- Deeper understanding of the homography decomposition for vision-based contro
- Practical Planar Metric Rectification
- Homography-Based Planar Mapping and Tracking for Mobile Phones
- Pose Estimation for Augmented Reality: A Hands-On Survey
- An Effective Rigidity Constraint for Improving RANSAC in Homography Estimation
- An Effective Rigidity Constraint for Improving RANSAC in Homography Estimation
- An Effective Rigidity Constraint for Improving RANSAC in Homography Estimation
- An Effective Rigidity Constraint for Improving RANSAC in Homography Estimation
- An Effective Rigidity Constraint for Improving RANSAC in Homography Estimation
- An Effective Rigidity Constraint for Improving RANSAC in Homography Estimation
- An Effective Rigidity Constraint for Improving RANSAC in Homography Estimation
- An Effective Rigidity Constraint for Improving RANSAC in Homography Estimation
- An Effective Rigidity Constraint for Improving RANSAC in Homography Estimation
- An Effective Rigidity Constraint for Improving RANSAC in Homography Estimation
- An Effective Rigidity Constraint for Improving RANSAC in Homography Estimation
- An Effective Rigidity Constraint for Improving RANSAC in Homography Estimation
- An Effective Rigidity Constraint for Improving RANSAC in Homography Estimation
- An Effective Rigidity Constraint for Improving RANSAC in Homography Estimation
- An Effective Rigidity Constraint for Improving RANSAC in Homography Estimation
- An Effective Rigidity Constraint for Improving RANSAC in Homography Estimation
- An Effective Rigidity Constraint for Improving RANSAC in Homography Estimation
- An Effective Rigidity Constraint for Improving RANSAC in Homography Estimation
- An Effective Rigidity Constraint for Improving RANSAC in Homography Estimation
- An Effective Rigidity Constraint for Improving RANSAC in Homography Estimation
- An Effective Rigidity Constraint for Improving RANSAC in Homography Estimation
- An Effective Rigidity Constraint for Improving RANSAC in Homography Estimation
- An Effective Rigidity Constraint for Improving RANSAC in Homography Estimation
- An Effective Rigidity Constraint for Improving RANSAC in Homography Estimation
- An Effective Rigidity Constraint for Improving RANSAC in Homography Estimation
- An Effective Rigidity Constraint for Improving RANSAC in Homography Estimation
- An Effective Rigidity Constraint for Improving RANSAC in Homography Estimation
- An Effective Rigidity Constraint for Improving RANSAC in Homography Estimation
- An Effective Rigidity Constraint for Improving RANSAC in Homography Estimation
- An Effective Rigidity Constraint for Improving RANSAC in Homography Estimation
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New resources for the past 30 days
- Automatic Upright Adjustment of Photographs With Robust Camera Calibration
- Rectification of planar targets using line segments
- Estimating the focal length of a photo from EXIF tags
- Dissimilarity-based Sparse Subset Selection
- A geometric interpretation of the covariance matrix
- the Serious Computer Vision Blog
- 情報学広場:情報処理学会
- Augmented Reality
- Probabilistic Randomness Of Stochasticity
- An Interactive Guide To The Fourier Transform
- PROJECTIVE GEOMETRY
- PRINCIPAL COMPONENT ANALYSIS IN 6 STEPS
- Will People Like Your Image?
- VALSE - 视觉与学习青年学者研讨会
- VALSE Archive
- AKAZE特徴量の紹介と他特徴量との比較
- ECCV2012で発表されたKAZE局所特徴量を試してみた
- Rectification of planar targets using line segments
- Rectification of planar targets using line segments
- GitXiv
- Rectification of planar targets using line segments
- Rectification of planar targets using line segments
- Rectification of planar targets using line segments
- Rectification of planar targets using line segments
- Rectification of planar targets using line segments
- Rectification of planar targets using line segments
- Rectification of planar targets using line segments
- Rectification of planar targets using line segments
- Rectification of planar targets using line segments
- Rectification of planar targets using line segments
- Rectification of planar targets using line segments
- Rectification of planar targets using line segments
- Rectification of planar targets using line segments
- Rectification of planar targets using line segments
- Rectification of planar targets using line segments
- Rectification of planar targets using line segments
- Rectification of planar targets using line segments
- Dissimilarity-based Sparse Subset Selection
- Rectification of planar targets using line segments
- Rectification of planar targets using line segments
- Rectification of planar targets using line segments
- Rectification of planar targets using line segments
- Rectification of planar targets using line segments
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Wikipedia resources
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Japanese
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にほんごのページ
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j-nihongo (日本語例文)
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Gagazine
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Lecture resource
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Gagazine
- COS 429 - Computer Vision
- Structure from Motion
- Binary Decision Diagram
- FERN keypoint recognition
- Binary Image Analysis
- Computer Vision course from University of Washington
- FERNs: Matching as Classification by Chen Feng
- Decision Tree - Classification
- Bag of word for visual categorisation
- simple supervised learning part 3: should i read it? the naive bayes method
- v1: semi supervised naive bayes
- Understand homogenous coordinate system
- TLD(Tracking-Learning-Detection)学习与源码理解之(一
- Learning Image patch similarity
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Development library
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Stackoverflow
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Sample project