JiaWang Bian, Wen-Yan Lin, Yasuyuki Matsushita, Sai-Kit Yeung, Tan Dat Nguyen, Ming-Ming Cheng, GMS: Grid-based Motion Statistics for Fast, Ultra-robust Feature Correspondence, CVPR 2017, [Project Page] [pdf] [Bib] [Code] [Youtube]
JiaWang Bian, Wen-Yan Lin, Yun Liu, Le Zhang, Sai-Kit Yeung, Ming-Ming Cheng, Ian Reid, GMS: Grid-based Motion Statistics for Fast, Ultra-robust Feature Correspondence, IJCV 2020, [pdf]
The method has been integrated into OpenCV library (see xfeatures2d.matchGMS).
More experiments are shown in FM-Bench.
The paper was selected and reviewed by Computer Vision News.
@article{Bian2020gms,
title={{GMS}: Grid-based Motion Statistics for Fast, Ultra-Robust Feature Correspondence},
author={Bian, JiaWang and Lin, Wen-Yan and Liu, Yun and Zhang, Le and Yeung, Sai-Kit and Cheng, Ming-Ming and Reid, Ian},
journal={International Journal of Computer Vision (IJCV)},
year={2020}
}
Requirement:
1.OpenCV 3.0 or later (for ORB features, necessary)
2.cudafeatures2d module(for gpu nearest neighbor, optional)
3.OpenCV xfeatures2D moudle (if using the opencv built-in GMS function)
C++ Example:
See src/demo.cpp
Python Example:
Go to "python" folder. Run "python3 opencv_demo.py".
(You need install opencv_contrib by "pip install opencv-contrib-python")
Matlab Example:
1. Go to "matlab" folder. Compile the code with OpenCV ('Compile.m'), and run 'demo.m'.
External Examples:
OpenCV C++ demo and Mexopencv example
Tuning Parameters:
In src/demo.cpp
1. #define USE_GPU" (need cudafeatures2d module)
using cpu mode by commenting it.
2. We suggest using SIFT features for accuracy, and using ORB features for speed.
In gms_matcher.h
2. #define THRESH_FACTOR 6
Set it higher for more input matches, and lower for the fewer input matches.
Often 6 for ORB all matches, and 4 or 3 for SIFT matches (after ratio test).
3. int GetInlierMask(vector<bool> &vbInliers, bool WithScale = false, bool WithRotation = false)
Set WithScale to be true for wide-baseline matching and false for video matching.
Set WithRotation to be true if images have significant reative rotations.
- FM-Bench (BMVC 2019, More evaluation details for GMS.)