@@ -184,14 +184,9 @@ Just comment on GitHub or make a pull request and we will answer as soon as poss
## Citation
Please cite these papers in your publications if it helps your research. The body-foot model and any additional functionality (calibration, 3-D reconstruction, etc.) use `[Cao et al. 2018]`; the hand and face keypoint detectors use `[Cao et al. 2018]` and `[Simon et al. 2017]` (the face detector was trained using the same procedure than for hands); and the old (deprecated) body-only model uses `[Cao et al. 2017]`.
Please cite these papers in your publications if it helps your research. For standard OpenPose, cite `[Cao et al. 2018]`. If you also use the hand and face keypoint detectors, then cite `[Cao et al. 2018]` and `[Simon et al. 2017]` (the face detector was trained using the same procedure than the hand detector).
@inproceedings{cao2018openpose,
author = {Zhe Cao and Gines Hidalgo and Tomas Simon and Shih-En Wei and Yaser Sheikh},
booktitle = {arXiv preprint arXiv:1812.08008},
title = {Open{P}ose: realtime multi-person 2{D} pose estimation using {P}art {A}ffinity {F}ields},
year = {2018}
}
@article{8765346, author={Z. {Cao} and G. {Hidalgo Martinez} and T. {Simon} and S. {Wei} and Y. A. {Sheikh}}, journal={IEEE Transactions on Pattern Analysis and Machine Intelligence}, title={OpenPose: Realtime Multi-Person 2D Pose Estimation using Part Affinity Fields}, year={2019}, volume={}, number={}, pages={1-1},}
@inproceedings{simon2017hand,
author = {Tomas Simon and Hanbyul Joo and Iain Matthews and Yaser Sheikh},
...
...
@@ -216,7 +211,9 @@ Please cite these papers in your publications if it helps your research. The bod
Links to the papers:
-[OpenPose: Realtime Multi-Person 2D Pose Estimation using Part Affinity Fields](https://arxiv.org/abs/1812.08008)
- OpenPose: Realtime Multi-Person 2D Pose Estimation using Part Affinity Fields:
@@ -141,7 +141,7 @@ Note: This installer will not incorporate any new features, we recommend to use
- Dependencies:
-[Caffe](http://posefs1.perception.cs.cmu.edu/OpenPose/3rdparty/windows/caffe_15_2019_05_16.zip): Unzip as `3rdparty/windows/caffe/`.
-[Caffe dependencies](http://posefs1.perception.cs.cmu.edu/OpenPose/3rdparty/windows/caffe3rdparty_15_2019_03_14.zip): Unzip as `3rdparty/windows/caffe3rdparty/`.
-[OpenCV 4.1.1](http://posefs1.perception.cs.cmu.edu/OpenPose/3rdparty/windows/opencv_411_v14_15_2019_09_24.zip): Unzip as `3rdparty/windows/opencv/`.
-[OpenCV 4.1.1](http://posefs1.perception.cs.cmu.edu/OpenPose/3rdparty/windows/opencv_420_v14_15_2020_04_04.zip): Unzip as `3rdparty/windows/opencv/`.
2. Open the Visual Studio project sln file by double-cliking on `{openpose_path}\windows\OpenPose.sln`.
3. In order to verify OpenPose is working, try compiling and executing the demo:
1. Right click on `OpenPoseDemo` --> `Set as StartUp Project`.
@@ -108,7 +108,7 @@ NOTE: These instructions are only required when compiling OpenPose brom source.
-[CPU Caffe](http://posefs1.perception.cs.cmu.edu/OpenPose/3rdparty/windows/caffe_cpu_2018_05_27.zip): Unzip as `3rdparty/windows/caffe_cpu/`.
-[OpenCL Caffe](http://posefs1.perception.cs.cmu.edu/OpenPose/3rdparty/windows/caffe_opencl_2018_02_13.zip): Unzip as `3rdparty/windows/caffe_opencl/`.
-[Caffe dependencies](http://posefs1.perception.cs.cmu.edu/OpenPose/3rdparty/windows/caffe3rdparty_15_2019_03_14.zip): Unzip as `3rdparty/windows/caffe3rdparty/`.
-[OpenCV 4.1.1](http://posefs1.perception.cs.cmu.edu/OpenPose/3rdparty/windows/opencv_411_v14_15_2019_09_24.zip): Unzip as `3rdparty/windows/opencv/`.
-[OpenCV 4.1.1](http://posefs1.perception.cs.cmu.edu/OpenPose/3rdparty/windows/opencv_420_v14_15_2020_04_04.zip): Unzip as `3rdparty/windows/opencv/`.
6.**Eigen prerequisite** (optional, only required for some specific extra functionality, such as extrinsic camera calibration):
- Enable the `WITH_EIGEN` flag when running CMake, and set it to `BUILD`.