- Apr 2017: Body released!
- May 2017: Windows version released!
- Jun 2017: Face released!
- Check all the release notes.
- Interested in an internship on CMU as OpenPose programmer? See this link for details.
OpenPose is a library for real-time multi-person keypoint detection and multi-threading written in C++ using OpenCV and Caffe*, authored by Gines Hidalgo, Zhe Cao, Tomas Simon, Shih-En Wei, Hanbyul Joo and Yaser Sheikh.
* It uses Caffe, but the code is ready to be ported to other frameworks (Tensorflow, Torch, etc.). If you implement any of those, feel free to make a pull request!
OpenPose represents the first real-time system to jointly detect human body, hand and facial keypoints (in total 130 keypoints) on single images. In addition, the system computational performance on body keypoint estimation is invariant to the number of detected people in the image.
OpenPose is freely available for free non-commercial use, and may be redistributed under these conditions. Please, see the license for further details. Contact us for commercial purposes.
Library main functionality:
-
Multi-person 15 or 18-keypoint body pose estimation and rendering. Running time invariant to number of people on the image.
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Multi-person 2x21-keypoint hand estimation and rendering. Note: In this initial version, running time linearly depends on the number of people on the image. Coming soon (in around 1-5 weeks)!
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Multi-person 70-keypoint face estimation and rendering. Note: In this initial version, running time linearly depends on the number of people on the image.
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Flexible and easy-to-configure multi-threading module.
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Image, video, and webcam reader.
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Able to save and load the results in various formats (JSON, XML, PNG, JPG, ...).
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Small display and GUI for simple result visualization.
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All the functionality is wrapped into a simple-to-use OpenPose Wrapper class.
The pose estimation work is based on the C++ code from the ECCV 2016 demo, "Realtime Multiperson Pose Estimation", Zhe Cao, Tomas Simon, Shih-En Wei, Yaser Sheikh. The full project repo includes Matlab and Python version, as well as training code.
- Installation, Reinstallation and Uninstallation
- Custom Caffe
- Quick Start
- Output
- OpenPose Benchmark
- Send Us Your Feedback!
- Citation
- Other Contributors
You can find the installation, reinstallation and uninstallation steps on: doc/installation.md.
We only modified some Caffe compilation flags and minor details. You can use use your own Caffe distribution, these are the files we added and modified:
- Added files:
install_caffe.sh
; as well asMakefile.config.Ubuntu14.example
,Makefile.config.Ubuntu16.example
,Makefile.config.Ubuntu14_cuda_7.example
andMakefile.config.Ubuntu16_cuda_7.example
(extracted fromMakefile.config.example
). Basically, you must enable cuDNN. - Edited file: Makefile. Search for "# OpenPose: " to find the edited code. We basically added the C++11 flag to avoid issues in some old computers.
- Optional - deleted Caffe file:
Makefile.config.example
. - In order to link it to OpenPose:
- Run
make all && make distribute
in your Caffe version. - Open the OpenPose Makefile config file:
./Makefile.config.UbuntuX.example
(where X depends on your OS and CUDA version). - Modify the Caffe folder directory variable (
CAFFE_DIR
) to your custom Caffedistribute
folder location in the previous OpenPose Makefile config file.
- Run
Most users cases should not need to dive deep into the library, they might just be able to use the Demo or the simple OpenPose Wrapper. So you can most probably skip the library details in OpenPose Library.
Your case if you just want to process a folder of images or video or webcam and display or save the pose results.
Forget about the OpenPose library details and just read the doc/demo_overview.md 1-page section.
Your case if you want to read a specific format of image source and/or add a specific post-processing function and/or implement your own display/saving.
(Almost) forget about the library, just take a look to the Wrapper
tutorial on examples/tutorial_wrapper/.
Note: you should not need to modify OpenPose source code or examples, so that you can directly upgrade the OpenPose library anytime in the future without changing your code. You might create your custom code on examples/user_code/ and compile it by using make all
in the OpenPose folder.
Your case if you want to change internal functions and/or extend its functionality. First, take a look at the Demo and OpenPose Wrapper. Second, read the 2 following subsections: OpenPose Overview and Extending Functionality.
-
OpenPose Overview: Learn the basics about the library source code in doc/library_overview.md.
-
Extending Functionality: Learn how to extend the library in doc/library_extend_functionality.md.
-
Adding An Extra Module: Learn how to add an extra module in doc/library_add_new_module.md.
You can generate the documentation by running the following command. The documentation will be generated in doc/doxygen/html/index.html
. You can simply open it with double click (your default browser should automatically display it).
cd doc/
doxygen doc_autogeneration.doxygen
Check the output (format, keypoint index ordering, etc.) in doc/output.md.
Check the OpenPose Benchmark and some hints to speed up OpenPose on doc/installation.md#faq.
Our library is open source for research purposes, and we want to continuously improve it! So please, let us know if...
-
... you find any bug (in functionality or speed).
-
... you added some functionality to some class or some new Worker subclass which we might potentially incorporate.
-
... you know how to speed up or improve any part of the library.
-
... you have a request about possible functionality.
-
... etc.
Just comment on GibHub or make a pull request and we will answer as soon as possible! Send us an email if you use the library to make a cool demo or YouTube video!
Please cite the papers in your publications if it helps your research:
@inproceedings{cao2017realtime,
author = {Zhe Cao and Tomas Simon and Shih-En Wei and Yaser Sheikh},
booktitle = {CVPR},
title = {Realtime Multi-Person 2D Pose Estimation using Part Affinity Fields},
year = {2017}
}
@inproceedings{simon2017hand,
author = {Tomas Simon and Hanbyul Joo and Iain Matthews and Yaser Sheikh},
booktitle = {CVPR},
title = {Hand Keypoint Detection in Single Images using Multiview Bootstrapping},
year = {2017}
}
@inproceedings{wei2016cpm,
author = {Shih-En Wei and Varun Ramakrishna and Takeo Kanade and Yaser Sheikh},
booktitle = {CVPR},
title = {Convolutional pose machines},
year = {2016}
}
We would like to thank the following people who also contributed to OpenPose:
- Helen Medina: For moving OpenPose to Windows (Visual Studio), making it work there and creating the Windows branch.