This is the implementation of Embedded real-time stereo estimation via Semi-Global Matching on the GPU, D. Hernandez-Juarez et al, ICCS 2016.
Performance obtained measured in Frames Per Second (FPS):
| 2 paths | 4 paths | 8 paths | |
|---|---|---|---|
| NVIDIA Tegra X1 | 81 | 42 | 19 |
| NVIDIA Titan X | 886 | 475 | 237 |
Results for example image (left and right Images):
Results for example image (Output):
Parameters used for KITTI 2015:
- 2 path directions: P1=7, P2=84
- 4 path directions: P1=7, P2=86
- 8 path directions: P1=6, P2=96
Simply use CMake and target the output directory as "build". In command line this would be (from the project root folder):
mkdir build
cd build
cmake ..
make
Type: ./sgm dir p1 p2
The arguments p1 and p2 are semi-global matching parameters, for more information read the SGM paper.
dir is the name of the directory which needs this format:
dir
---- left (images taken from the left camera)
---- right (right camera)
---- disparities (results will be here)
Embedded real-time stereo estimation via Semi-Global Matching on the GPU D. Hernandez-Juarez, A. Chacón, A. Espinosa, D. Vázquez, J. C. Moure, and A. M. López ICCS2016 – International Conference on Computational Science 2016
- OpenCV
- CUDA
- CMake
- Maximum disparity has to be 128
- PATH_AGGREGATION parameter must be set to 4 or 8
- Image width and height must be a divisible by 4
- Very fast execution and black disparity result: This is usually an error related to the compute architecture used. Look at the CMakeLists.txt and change the architecture to the one you are using, please. If you run the application with nvprof you will see that it does not run any CUDA kernel.
If you use this code for your research, please kindly cite:
@inproceedings{sgm_gpu_iccs2016,
author = {Daniel Hernandez-Juarez and
Alejandro Chac{\'{o}}n and
Antonio Espinosa and
David V{\'{a}}zquez and
Juan Carlos Moure and
Antonio M. L{\'{o}}pez},
title = {Embedded Real-time Stereo Estimation via Semi-Global Matching on the
{GPU}},
booktitle = {International Conference on Computational Science 2016, {ICCS} 2016,
6-8 June 2016, San Diego, California, {USA}},
pages = {143--153},
year = {2016},
crossref = {DBLP:conf/iccS/2016},
url = {http://dx.doi.org/10.1016/j.procs.2016.05.305},
doi = {10.1016/j.procs.2016.05.305},
biburl = {http://dblp.uni-trier.de/rec/bib/conf/iccS/JuarezCEVML16},
bibsource = {dblp computer science bibliography, http://dblp.org}
}