pose2sim/Pose2Sim/synchronization.py

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2024-03-16 22:49:40 +08:00
#!/usr/bin/env python
# -*- coding: utf-8 -*-
'''
2024-04-15 20:12:14 +08:00
#########################################
## SYNCHRONIZE CAMERAS ##
#########################################
Pose estimation test (#116) Edits from @hunminkim98's awesome work at integrating pose estimation into Pose2Sim with RTMLib. Most of the changes in syntax are not necessarily better, it is mostly for the code to be more consistent with the rest of the library. Thank you again for your fantastic work! General: - Automatically detects whether a valid CUDA install is available. If so, use the GPU with the ONNXRuntime backend. Otherwise, use the CPU with the OpenVINO backend - The tensorflow version used for marker augmentation was incompatible with the cuda torch installation for pose estimation: edited code and models for it to work with the latest tf version. - Added logging information to pose estimation - Readme.md: provided an installation procedure for CUDA (took me a while to find something simple and robust) - Readme.md: added information about PoseEstimation with RTMLib - added poseEstimation to tests.py - created videos for the multi-person case (used to only have json, no video), and reorganized Demo folders. Had to recreate calibration file as well Json files: - the json files only saved one person, I made it save all the detected ones - tracking was not taken into account by rtmlib, which caused issues in synchronization: fixed, waiting for merge - took the save_to_openpose function out from the main function - minified the json files (they take less space when all spaces are removed) Detection results: - Compared the triangulated locations of RTMpose keypoints to the ones of OpenPose to potentially edit model marker locations on OpenSim. Did not seem to need it. Others in Config.toml: - removed the "to_openpose" option, which is not needed - added the flag: save_video = 'to_images' # 'to_video' or 'to_images' or ['to_video', 'to_images'] - changed the way frame_range was handled (made me change synchronization in depth, as well as personAssociation and triangulation) - added the flag: time_range_around_maxspeed in synchronization - automatically detect framerate from video, or set to 60 fps if we work from images (or give a value) - frame_range -> time_range - moved height and weight to project (only read for markerAugmentation, and in the future for automatic scaling) - removed reorder_trc from triangulation and Config -> call it for markerAugmentation instead Others: - Provided an installation procedure for OpenSim (for the future) and made continuous installation check its install (a bit harder since it cannot be installed via pip) - scaling from motion instead of static pose (will have to study whether it's as good or not) - added logging to synchronization - Struggled quite a bit with continuous integration * Starting point of integrating RTMPose into Pose2Sim. (#111) * RTM_to_Open Convert format from RTMPose to OpenPose * rtm_intergrated * rtm_integrated * rtm_integrated * rtm_integrated * rtm * Delete build/lib/Pose2Sim directory * rtm * Delete build/lib/Pose2Sim directory * Delete onnxruntime-gpu * device = cpu * add pose folder * Update tests.py * added annotation * fix typo * Should work be still lots of tests to run. Detailed commit coming soon * intermediary commit * last checks before v0.9.0 * Update continuous-integration.yml * Update tests.py * replaced tabs with spaces * unittest issue * unittest typo * deactivated display for CI test of pose detection * Try to make continuous integration work * a * b * c * d * e * f * g * h * i * j * k * l --------- Co-authored-by: HunMinKim <144449115+hunminkim98@users.noreply.github.com>
2024-07-09 22:39:33 +08:00
Post-synchronize your cameras in case they are not natively synchronized.
2024-04-15 20:12:14 +08:00
Pose estimation test (#116) Edits from @hunminkim98's awesome work at integrating pose estimation into Pose2Sim with RTMLib. Most of the changes in syntax are not necessarily better, it is mostly for the code to be more consistent with the rest of the library. Thank you again for your fantastic work! General: - Automatically detects whether a valid CUDA install is available. If so, use the GPU with the ONNXRuntime backend. Otherwise, use the CPU with the OpenVINO backend - The tensorflow version used for marker augmentation was incompatible with the cuda torch installation for pose estimation: edited code and models for it to work with the latest tf version. - Added logging information to pose estimation - Readme.md: provided an installation procedure for CUDA (took me a while to find something simple and robust) - Readme.md: added information about PoseEstimation with RTMLib - added poseEstimation to tests.py - created videos for the multi-person case (used to only have json, no video), and reorganized Demo folders. Had to recreate calibration file as well Json files: - the json files only saved one person, I made it save all the detected ones - tracking was not taken into account by rtmlib, which caused issues in synchronization: fixed, waiting for merge - took the save_to_openpose function out from the main function - minified the json files (they take less space when all spaces are removed) Detection results: - Compared the triangulated locations of RTMpose keypoints to the ones of OpenPose to potentially edit model marker locations on OpenSim. Did not seem to need it. Others in Config.toml: - removed the "to_openpose" option, which is not needed - added the flag: save_video = 'to_images' # 'to_video' or 'to_images' or ['to_video', 'to_images'] - changed the way frame_range was handled (made me change synchronization in depth, as well as personAssociation and triangulation) - added the flag: time_range_around_maxspeed in synchronization - automatically detect framerate from video, or set to 60 fps if we work from images (or give a value) - frame_range -> time_range - moved height and weight to project (only read for markerAugmentation, and in the future for automatic scaling) - removed reorder_trc from triangulation and Config -> call it for markerAugmentation instead Others: - Provided an installation procedure for OpenSim (for the future) and made continuous installation check its install (a bit harder since it cannot be installed via pip) - scaling from motion instead of static pose (will have to study whether it's as good or not) - added logging to synchronization - Struggled quite a bit with continuous integration * Starting point of integrating RTMPose into Pose2Sim. (#111) * RTM_to_Open Convert format from RTMPose to OpenPose * rtm_intergrated * rtm_integrated * rtm_integrated * rtm_integrated * rtm * Delete build/lib/Pose2Sim directory * rtm * Delete build/lib/Pose2Sim directory * Delete onnxruntime-gpu * device = cpu * add pose folder * Update tests.py * added annotation * fix typo * Should work be still lots of tests to run. Detailed commit coming soon * intermediary commit * last checks before v0.9.0 * Update continuous-integration.yml * Update tests.py * replaced tabs with spaces * unittest issue * unittest typo * deactivated display for CI test of pose detection * Try to make continuous integration work * a * b * c * d * e * f * g * h * i * j * k * l --------- Co-authored-by: HunMinKim <144449115+hunminkim98@users.noreply.github.com>
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For each camera, computes mean vertical speed for the chosen keypoints,
and find the time offset for which their correlation is highest.
2024-04-15 20:12:14 +08:00
Pose estimation test (#116) Edits from @hunminkim98's awesome work at integrating pose estimation into Pose2Sim with RTMLib. Most of the changes in syntax are not necessarily better, it is mostly for the code to be more consistent with the rest of the library. Thank you again for your fantastic work! General: - Automatically detects whether a valid CUDA install is available. If so, use the GPU with the ONNXRuntime backend. Otherwise, use the CPU with the OpenVINO backend - The tensorflow version used for marker augmentation was incompatible with the cuda torch installation for pose estimation: edited code and models for it to work with the latest tf version. - Added logging information to pose estimation - Readme.md: provided an installation procedure for CUDA (took me a while to find something simple and robust) - Readme.md: added information about PoseEstimation with RTMLib - added poseEstimation to tests.py - created videos for the multi-person case (used to only have json, no video), and reorganized Demo folders. Had to recreate calibration file as well Json files: - the json files only saved one person, I made it save all the detected ones - tracking was not taken into account by rtmlib, which caused issues in synchronization: fixed, waiting for merge - took the save_to_openpose function out from the main function - minified the json files (they take less space when all spaces are removed) Detection results: - Compared the triangulated locations of RTMpose keypoints to the ones of OpenPose to potentially edit model marker locations on OpenSim. Did not seem to need it. Others in Config.toml: - removed the "to_openpose" option, which is not needed - added the flag: save_video = 'to_images' # 'to_video' or 'to_images' or ['to_video', 'to_images'] - changed the way frame_range was handled (made me change synchronization in depth, as well as personAssociation and triangulation) - added the flag: time_range_around_maxspeed in synchronization - automatically detect framerate from video, or set to 60 fps if we work from images (or give a value) - frame_range -> time_range - moved height and weight to project (only read for markerAugmentation, and in the future for automatic scaling) - removed reorder_trc from triangulation and Config -> call it for markerAugmentation instead Others: - Provided an installation procedure for OpenSim (for the future) and made continuous installation check its install (a bit harder since it cannot be installed via pip) - scaling from motion instead of static pose (will have to study whether it's as good or not) - added logging to synchronization - Struggled quite a bit with continuous integration * Starting point of integrating RTMPose into Pose2Sim. (#111) * RTM_to_Open Convert format from RTMPose to OpenPose * rtm_intergrated * rtm_integrated * rtm_integrated * rtm_integrated * rtm * Delete build/lib/Pose2Sim directory * rtm * Delete build/lib/Pose2Sim directory * Delete onnxruntime-gpu * device = cpu * add pose folder * Update tests.py * added annotation * fix typo * Should work be still lots of tests to run. Detailed commit coming soon * intermediary commit * last checks before v0.9.0 * Update continuous-integration.yml * Update tests.py * replaced tabs with spaces * unittest issue * unittest typo * deactivated display for CI test of pose detection * Try to make continuous integration work * a * b * c * d * e * f * g * h * i * j * k * l --------- Co-authored-by: HunMinKim <144449115+hunminkim98@users.noreply.github.com>
2024-07-09 22:39:33 +08:00
Depending on the analysed motion, all keypoints can be taken into account,
or a list of them, or the right or left side.
All frames can be considered, or only those around a specific time (typically,
the time when there is a single participant in the scene performing a clear vertical motion).
Has also been successfully tested for synchronizing random walkswith random walks.
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Pose estimation test (#116) Edits from @hunminkim98's awesome work at integrating pose estimation into Pose2Sim with RTMLib. Most of the changes in syntax are not necessarily better, it is mostly for the code to be more consistent with the rest of the library. Thank you again for your fantastic work! General: - Automatically detects whether a valid CUDA install is available. If so, use the GPU with the ONNXRuntime backend. Otherwise, use the CPU with the OpenVINO backend - The tensorflow version used for marker augmentation was incompatible with the cuda torch installation for pose estimation: edited code and models for it to work with the latest tf version. - Added logging information to pose estimation - Readme.md: provided an installation procedure for CUDA (took me a while to find something simple and robust) - Readme.md: added information about PoseEstimation with RTMLib - added poseEstimation to tests.py - created videos for the multi-person case (used to only have json, no video), and reorganized Demo folders. Had to recreate calibration file as well Json files: - the json files only saved one person, I made it save all the detected ones - tracking was not taken into account by rtmlib, which caused issues in synchronization: fixed, waiting for merge - took the save_to_openpose function out from the main function - minified the json files (they take less space when all spaces are removed) Detection results: - Compared the triangulated locations of RTMpose keypoints to the ones of OpenPose to potentially edit model marker locations on OpenSim. Did not seem to need it. Others in Config.toml: - removed the "to_openpose" option, which is not needed - added the flag: save_video = 'to_images' # 'to_video' or 'to_images' or ['to_video', 'to_images'] - changed the way frame_range was handled (made me change synchronization in depth, as well as personAssociation and triangulation) - added the flag: time_range_around_maxspeed in synchronization - automatically detect framerate from video, or set to 60 fps if we work from images (or give a value) - frame_range -> time_range - moved height and weight to project (only read for markerAugmentation, and in the future for automatic scaling) - removed reorder_trc from triangulation and Config -> call it for markerAugmentation instead Others: - Provided an installation procedure for OpenSim (for the future) and made continuous installation check its install (a bit harder since it cannot be installed via pip) - scaling from motion instead of static pose (will have to study whether it's as good or not) - added logging to synchronization - Struggled quite a bit with continuous integration * Starting point of integrating RTMPose into Pose2Sim. (#111) * RTM_to_Open Convert format from RTMPose to OpenPose * rtm_intergrated * rtm_integrated * rtm_integrated * rtm_integrated * rtm * Delete build/lib/Pose2Sim directory * rtm * Delete build/lib/Pose2Sim directory * Delete onnxruntime-gpu * device = cpu * add pose folder * Update tests.py * added annotation * fix typo * Should work be still lots of tests to run. Detailed commit coming soon * intermediary commit * last checks before v0.9.0 * Update continuous-integration.yml * Update tests.py * replaced tabs with spaces * unittest issue * unittest typo * deactivated display for CI test of pose detection * Try to make continuous integration work * a * b * c * d * e * f * g * h * i * j * k * l --------- Co-authored-by: HunMinKim <144449115+hunminkim98@users.noreply.github.com>
2024-07-09 22:39:33 +08:00
Keypoints whose likelihood is too low are filtered out; and the remaining ones are
filtered with a butterworth filter.
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Pose estimation test (#116) Edits from @hunminkim98's awesome work at integrating pose estimation into Pose2Sim with RTMLib. Most of the changes in syntax are not necessarily better, it is mostly for the code to be more consistent with the rest of the library. Thank you again for your fantastic work! General: - Automatically detects whether a valid CUDA install is available. If so, use the GPU with the ONNXRuntime backend. Otherwise, use the CPU with the OpenVINO backend - The tensorflow version used for marker augmentation was incompatible with the cuda torch installation for pose estimation: edited code and models for it to work with the latest tf version. - Added logging information to pose estimation - Readme.md: provided an installation procedure for CUDA (took me a while to find something simple and robust) - Readme.md: added information about PoseEstimation with RTMLib - added poseEstimation to tests.py - created videos for the multi-person case (used to only have json, no video), and reorganized Demo folders. Had to recreate calibration file as well Json files: - the json files only saved one person, I made it save all the detected ones - tracking was not taken into account by rtmlib, which caused issues in synchronization: fixed, waiting for merge - took the save_to_openpose function out from the main function - minified the json files (they take less space when all spaces are removed) Detection results: - Compared the triangulated locations of RTMpose keypoints to the ones of OpenPose to potentially edit model marker locations on OpenSim. Did not seem to need it. Others in Config.toml: - removed the "to_openpose" option, which is not needed - added the flag: save_video = 'to_images' # 'to_video' or 'to_images' or ['to_video', 'to_images'] - changed the way frame_range was handled (made me change synchronization in depth, as well as personAssociation and triangulation) - added the flag: time_range_around_maxspeed in synchronization - automatically detect framerate from video, or set to 60 fps if we work from images (or give a value) - frame_range -> time_range - moved height and weight to project (only read for markerAugmentation, and in the future for automatic scaling) - removed reorder_trc from triangulation and Config -> call it for markerAugmentation instead Others: - Provided an installation procedure for OpenSim (for the future) and made continuous installation check its install (a bit harder since it cannot be installed via pip) - scaling from motion instead of static pose (will have to study whether it's as good or not) - added logging to synchronization - Struggled quite a bit with continuous integration * Starting point of integrating RTMPose into Pose2Sim. (#111) * RTM_to_Open Convert format from RTMPose to OpenPose * rtm_intergrated * rtm_integrated * rtm_integrated * rtm_integrated * rtm * Delete build/lib/Pose2Sim directory * rtm * Delete build/lib/Pose2Sim directory * Delete onnxruntime-gpu * device = cpu * add pose folder * Update tests.py * added annotation * fix typo * Should work be still lots of tests to run. Detailed commit coming soon * intermediary commit * last checks before v0.9.0 * Update continuous-integration.yml * Update tests.py * replaced tabs with spaces * unittest issue * unittest typo * deactivated display for CI test of pose detection * Try to make continuous integration work * a * b * c * d * e * f * g * h * i * j * k * l --------- Co-authored-by: HunMinKim <144449115+hunminkim98@users.noreply.github.com>
2024-07-09 22:39:33 +08:00
INPUTS:
- json files from each camera folders
- a Config.toml file
- a skeleton model
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Pose estimation test (#116) Edits from @hunminkim98's awesome work at integrating pose estimation into Pose2Sim with RTMLib. Most of the changes in syntax are not necessarily better, it is mostly for the code to be more consistent with the rest of the library. Thank you again for your fantastic work! General: - Automatically detects whether a valid CUDA install is available. If so, use the GPU with the ONNXRuntime backend. Otherwise, use the CPU with the OpenVINO backend - The tensorflow version used for marker augmentation was incompatible with the cuda torch installation for pose estimation: edited code and models for it to work with the latest tf version. - Added logging information to pose estimation - Readme.md: provided an installation procedure for CUDA (took me a while to find something simple and robust) - Readme.md: added information about PoseEstimation with RTMLib - added poseEstimation to tests.py - created videos for the multi-person case (used to only have json, no video), and reorganized Demo folders. Had to recreate calibration file as well Json files: - the json files only saved one person, I made it save all the detected ones - tracking was not taken into account by rtmlib, which caused issues in synchronization: fixed, waiting for merge - took the save_to_openpose function out from the main function - minified the json files (they take less space when all spaces are removed) Detection results: - Compared the triangulated locations of RTMpose keypoints to the ones of OpenPose to potentially edit model marker locations on OpenSim. Did not seem to need it. Others in Config.toml: - removed the "to_openpose" option, which is not needed - added the flag: save_video = 'to_images' # 'to_video' or 'to_images' or ['to_video', 'to_images'] - changed the way frame_range was handled (made me change synchronization in depth, as well as personAssociation and triangulation) - added the flag: time_range_around_maxspeed in synchronization - automatically detect framerate from video, or set to 60 fps if we work from images (or give a value) - frame_range -> time_range - moved height and weight to project (only read for markerAugmentation, and in the future for automatic scaling) - removed reorder_trc from triangulation and Config -> call it for markerAugmentation instead Others: - Provided an installation procedure for OpenSim (for the future) and made continuous installation check its install (a bit harder since it cannot be installed via pip) - scaling from motion instead of static pose (will have to study whether it's as good or not) - added logging to synchronization - Struggled quite a bit with continuous integration * Starting point of integrating RTMPose into Pose2Sim. (#111) * RTM_to_Open Convert format from RTMPose to OpenPose * rtm_intergrated * rtm_integrated * rtm_integrated * rtm_integrated * rtm * Delete build/lib/Pose2Sim directory * rtm * Delete build/lib/Pose2Sim directory * Delete onnxruntime-gpu * device = cpu * add pose folder * Update tests.py * added annotation * fix typo * Should work be still lots of tests to run. Detailed commit coming soon * intermediary commit * last checks before v0.9.0 * Update continuous-integration.yml * Update tests.py * replaced tabs with spaces * unittest issue * unittest typo * deactivated display for CI test of pose detection * Try to make continuous integration work * a * b * c * d * e * f * g * h * i * j * k * l --------- Co-authored-by: HunMinKim <144449115+hunminkim98@users.noreply.github.com>
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OUTPUTS:
- synchronized json files for each camera
'''
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## INIT
import numpy as np
import pandas as pd
Pose estimation test (#116) Edits from @hunminkim98's awesome work at integrating pose estimation into Pose2Sim with RTMLib. Most of the changes in syntax are not necessarily better, it is mostly for the code to be more consistent with the rest of the library. Thank you again for your fantastic work! General: - Automatically detects whether a valid CUDA install is available. If so, use the GPU with the ONNXRuntime backend. Otherwise, use the CPU with the OpenVINO backend - The tensorflow version used for marker augmentation was incompatible with the cuda torch installation for pose estimation: edited code and models for it to work with the latest tf version. - Added logging information to pose estimation - Readme.md: provided an installation procedure for CUDA (took me a while to find something simple and robust) - Readme.md: added information about PoseEstimation with RTMLib - added poseEstimation to tests.py - created videos for the multi-person case (used to only have json, no video), and reorganized Demo folders. Had to recreate calibration file as well Json files: - the json files only saved one person, I made it save all the detected ones - tracking was not taken into account by rtmlib, which caused issues in synchronization: fixed, waiting for merge - took the save_to_openpose function out from the main function - minified the json files (they take less space when all spaces are removed) Detection results: - Compared the triangulated locations of RTMpose keypoints to the ones of OpenPose to potentially edit model marker locations on OpenSim. Did not seem to need it. Others in Config.toml: - removed the "to_openpose" option, which is not needed - added the flag: save_video = 'to_images' # 'to_video' or 'to_images' or ['to_video', 'to_images'] - changed the way frame_range was handled (made me change synchronization in depth, as well as personAssociation and triangulation) - added the flag: time_range_around_maxspeed in synchronization - automatically detect framerate from video, or set to 60 fps if we work from images (or give a value) - frame_range -> time_range - moved height and weight to project (only read for markerAugmentation, and in the future for automatic scaling) - removed reorder_trc from triangulation and Config -> call it for markerAugmentation instead Others: - Provided an installation procedure for OpenSim (for the future) and made continuous installation check its install (a bit harder since it cannot be installed via pip) - scaling from motion instead of static pose (will have to study whether it's as good or not) - added logging to synchronization - Struggled quite a bit with continuous integration * Starting point of integrating RTMPose into Pose2Sim. (#111) * RTM_to_Open Convert format from RTMPose to OpenPose * rtm_intergrated * rtm_integrated * rtm_integrated * rtm_integrated * rtm * Delete build/lib/Pose2Sim directory * rtm * Delete build/lib/Pose2Sim directory * Delete onnxruntime-gpu * device = cpu * add pose folder * Update tests.py * added annotation * fix typo * Should work be still lots of tests to run. Detailed commit coming soon * intermediary commit * last checks before v0.9.0 * Update continuous-integration.yml * Update tests.py * replaced tabs with spaces * unittest issue * unittest typo * deactivated display for CI test of pose detection * Try to make continuous integration work * a * b * c * d * e * f * g * h * i * j * k * l --------- Co-authored-by: HunMinKim <144449115+hunminkim98@users.noreply.github.com>
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import cv2
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import matplotlib.pyplot as plt
from scipy import signal
from scipy import interpolate
import json
import os
Pose estimation test (#116) Edits from @hunminkim98's awesome work at integrating pose estimation into Pose2Sim with RTMLib. Most of the changes in syntax are not necessarily better, it is mostly for the code to be more consistent with the rest of the library. Thank you again for your fantastic work! General: - Automatically detects whether a valid CUDA install is available. If so, use the GPU with the ONNXRuntime backend. Otherwise, use the CPU with the OpenVINO backend - The tensorflow version used for marker augmentation was incompatible with the cuda torch installation for pose estimation: edited code and models for it to work with the latest tf version. - Added logging information to pose estimation - Readme.md: provided an installation procedure for CUDA (took me a while to find something simple and robust) - Readme.md: added information about PoseEstimation with RTMLib - added poseEstimation to tests.py - created videos for the multi-person case (used to only have json, no video), and reorganized Demo folders. Had to recreate calibration file as well Json files: - the json files only saved one person, I made it save all the detected ones - tracking was not taken into account by rtmlib, which caused issues in synchronization: fixed, waiting for merge - took the save_to_openpose function out from the main function - minified the json files (they take less space when all spaces are removed) Detection results: - Compared the triangulated locations of RTMpose keypoints to the ones of OpenPose to potentially edit model marker locations on OpenSim. Did not seem to need it. Others in Config.toml: - removed the "to_openpose" option, which is not needed - added the flag: save_video = 'to_images' # 'to_video' or 'to_images' or ['to_video', 'to_images'] - changed the way frame_range was handled (made me change synchronization in depth, as well as personAssociation and triangulation) - added the flag: time_range_around_maxspeed in synchronization - automatically detect framerate from video, or set to 60 fps if we work from images (or give a value) - frame_range -> time_range - moved height and weight to project (only read for markerAugmentation, and in the future for automatic scaling) - removed reorder_trc from triangulation and Config -> call it for markerAugmentation instead Others: - Provided an installation procedure for OpenSim (for the future) and made continuous installation check its install (a bit harder since it cannot be installed via pip) - scaling from motion instead of static pose (will have to study whether it's as good or not) - added logging to synchronization - Struggled quite a bit with continuous integration * Starting point of integrating RTMPose into Pose2Sim. (#111) * RTM_to_Open Convert format from RTMPose to OpenPose * rtm_intergrated * rtm_integrated * rtm_integrated * rtm_integrated * rtm * Delete build/lib/Pose2Sim directory * rtm * Delete build/lib/Pose2Sim directory * Delete onnxruntime-gpu * device = cpu * add pose folder * Update tests.py * added annotation * fix typo * Should work be still lots of tests to run. Detailed commit coming soon * intermediary commit * last checks before v0.9.0 * Update continuous-integration.yml * Update tests.py * replaced tabs with spaces * unittest issue * unittest typo * deactivated display for CI test of pose detection * Try to make continuous integration work * a * b * c * d * e * f * g * h * i * j * k * l --------- Co-authored-by: HunMinKim <144449115+hunminkim98@users.noreply.github.com>
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import glob
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import fnmatch
Pose estimation test (#116) Edits from @hunminkim98's awesome work at integrating pose estimation into Pose2Sim with RTMLib. Most of the changes in syntax are not necessarily better, it is mostly for the code to be more consistent with the rest of the library. Thank you again for your fantastic work! General: - Automatically detects whether a valid CUDA install is available. If so, use the GPU with the ONNXRuntime backend. Otherwise, use the CPU with the OpenVINO backend - The tensorflow version used for marker augmentation was incompatible with the cuda torch installation for pose estimation: edited code and models for it to work with the latest tf version. - Added logging information to pose estimation - Readme.md: provided an installation procedure for CUDA (took me a while to find something simple and robust) - Readme.md: added information about PoseEstimation with RTMLib - added poseEstimation to tests.py - created videos for the multi-person case (used to only have json, no video), and reorganized Demo folders. Had to recreate calibration file as well Json files: - the json files only saved one person, I made it save all the detected ones - tracking was not taken into account by rtmlib, which caused issues in synchronization: fixed, waiting for merge - took the save_to_openpose function out from the main function - minified the json files (they take less space when all spaces are removed) Detection results: - Compared the triangulated locations of RTMpose keypoints to the ones of OpenPose to potentially edit model marker locations on OpenSim. Did not seem to need it. Others in Config.toml: - removed the "to_openpose" option, which is not needed - added the flag: save_video = 'to_images' # 'to_video' or 'to_images' or ['to_video', 'to_images'] - changed the way frame_range was handled (made me change synchronization in depth, as well as personAssociation and triangulation) - added the flag: time_range_around_maxspeed in synchronization - automatically detect framerate from video, or set to 60 fps if we work from images (or give a value) - frame_range -> time_range - moved height and weight to project (only read for markerAugmentation, and in the future for automatic scaling) - removed reorder_trc from triangulation and Config -> call it for markerAugmentation instead Others: - Provided an installation procedure for OpenSim (for the future) and made continuous installation check its install (a bit harder since it cannot be installed via pip) - scaling from motion instead of static pose (will have to study whether it's as good or not) - added logging to synchronization - Struggled quite a bit with continuous integration * Starting point of integrating RTMPose into Pose2Sim. (#111) * RTM_to_Open Convert format from RTMPose to OpenPose * rtm_intergrated * rtm_integrated * rtm_integrated * rtm_integrated * rtm * Delete build/lib/Pose2Sim directory * rtm * Delete build/lib/Pose2Sim directory * Delete onnxruntime-gpu * device = cpu * add pose folder * Update tests.py * added annotation * fix typo * Should work be still lots of tests to run. Detailed commit coming soon * intermediary commit * last checks before v0.9.0 * Update continuous-integration.yml * Update tests.py * replaced tabs with spaces * unittest issue * unittest typo * deactivated display for CI test of pose detection * Try to make continuous integration work * a * b * c * d * e * f * g * h * i * j * k * l --------- Co-authored-by: HunMinKim <144449115+hunminkim98@users.noreply.github.com>
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import re
import shutil
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from anytree import RenderTree
from anytree.importer import DictImporter
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import logging
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from Pose2Sim.common import sort_stringlist_by_last_number
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from Pose2Sim.skeletons import *
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## AUTHORSHIP INFORMATION
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__author__ = "David Pagnon, HunMin Kim"
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__copyright__ = "Copyright 2021, Pose2Sim"
__credits__ = ["David Pagnon"]
__license__ = "BSD 3-Clause License"
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__version__ = "0.9.4"
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__maintainer__ = "David Pagnon"
__email__ = "contact@david-pagnon.com"
__status__ = "Development"
# FUNCTIONS
Pose estimation test (#116) Edits from @hunminkim98's awesome work at integrating pose estimation into Pose2Sim with RTMLib. Most of the changes in syntax are not necessarily better, it is mostly for the code to be more consistent with the rest of the library. Thank you again for your fantastic work! General: - Automatically detects whether a valid CUDA install is available. If so, use the GPU with the ONNXRuntime backend. Otherwise, use the CPU with the OpenVINO backend - The tensorflow version used for marker augmentation was incompatible with the cuda torch installation for pose estimation: edited code and models for it to work with the latest tf version. - Added logging information to pose estimation - Readme.md: provided an installation procedure for CUDA (took me a while to find something simple and robust) - Readme.md: added information about PoseEstimation with RTMLib - added poseEstimation to tests.py - created videos for the multi-person case (used to only have json, no video), and reorganized Demo folders. Had to recreate calibration file as well Json files: - the json files only saved one person, I made it save all the detected ones - tracking was not taken into account by rtmlib, which caused issues in synchronization: fixed, waiting for merge - took the save_to_openpose function out from the main function - minified the json files (they take less space when all spaces are removed) Detection results: - Compared the triangulated locations of RTMpose keypoints to the ones of OpenPose to potentially edit model marker locations on OpenSim. Did not seem to need it. Others in Config.toml: - removed the "to_openpose" option, which is not needed - added the flag: save_video = 'to_images' # 'to_video' or 'to_images' or ['to_video', 'to_images'] - changed the way frame_range was handled (made me change synchronization in depth, as well as personAssociation and triangulation) - added the flag: time_range_around_maxspeed in synchronization - automatically detect framerate from video, or set to 60 fps if we work from images (or give a value) - frame_range -> time_range - moved height and weight to project (only read for markerAugmentation, and in the future for automatic scaling) - removed reorder_trc from triangulation and Config -> call it for markerAugmentation instead Others: - Provided an installation procedure for OpenSim (for the future) and made continuous installation check its install (a bit harder since it cannot be installed via pip) - scaling from motion instead of static pose (will have to study whether it's as good or not) - added logging to synchronization - Struggled quite a bit with continuous integration * Starting point of integrating RTMPose into Pose2Sim. (#111) * RTM_to_Open Convert format from RTMPose to OpenPose * rtm_intergrated * rtm_integrated * rtm_integrated * rtm_integrated * rtm * Delete build/lib/Pose2Sim directory * rtm * Delete build/lib/Pose2Sim directory * Delete onnxruntime-gpu * device = cpu * add pose folder * Update tests.py * added annotation * fix typo * Should work be still lots of tests to run. Detailed commit coming soon * intermediary commit * last checks before v0.9.0 * Update continuous-integration.yml * Update tests.py * replaced tabs with spaces * unittest issue * unittest typo * deactivated display for CI test of pose detection * Try to make continuous integration work * a * b * c * d * e * f * g * h * i * j * k * l --------- Co-authored-by: HunMinKim <144449115+hunminkim98@users.noreply.github.com>
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def convert_json2pandas(json_files, likelihood_threshold=0.6):
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'''
Pose estimation test (#116) Edits from @hunminkim98's awesome work at integrating pose estimation into Pose2Sim with RTMLib. Most of the changes in syntax are not necessarily better, it is mostly for the code to be more consistent with the rest of the library. Thank you again for your fantastic work! General: - Automatically detects whether a valid CUDA install is available. If so, use the GPU with the ONNXRuntime backend. Otherwise, use the CPU with the OpenVINO backend - The tensorflow version used for marker augmentation was incompatible with the cuda torch installation for pose estimation: edited code and models for it to work with the latest tf version. - Added logging information to pose estimation - Readme.md: provided an installation procedure for CUDA (took me a while to find something simple and robust) - Readme.md: added information about PoseEstimation with RTMLib - added poseEstimation to tests.py - created videos for the multi-person case (used to only have json, no video), and reorganized Demo folders. Had to recreate calibration file as well Json files: - the json files only saved one person, I made it save all the detected ones - tracking was not taken into account by rtmlib, which caused issues in synchronization: fixed, waiting for merge - took the save_to_openpose function out from the main function - minified the json files (they take less space when all spaces are removed) Detection results: - Compared the triangulated locations of RTMpose keypoints to the ones of OpenPose to potentially edit model marker locations on OpenSim. Did not seem to need it. Others in Config.toml: - removed the "to_openpose" option, which is not needed - added the flag: save_video = 'to_images' # 'to_video' or 'to_images' or ['to_video', 'to_images'] - changed the way frame_range was handled (made me change synchronization in depth, as well as personAssociation and triangulation) - added the flag: time_range_around_maxspeed in synchronization - automatically detect framerate from video, or set to 60 fps if we work from images (or give a value) - frame_range -> time_range - moved height and weight to project (only read for markerAugmentation, and in the future for automatic scaling) - removed reorder_trc from triangulation and Config -> call it for markerAugmentation instead Others: - Provided an installation procedure for OpenSim (for the future) and made continuous installation check its install (a bit harder since it cannot be installed via pip) - scaling from motion instead of static pose (will have to study whether it's as good or not) - added logging to synchronization - Struggled quite a bit with continuous integration * Starting point of integrating RTMPose into Pose2Sim. (#111) * RTM_to_Open Convert format from RTMPose to OpenPose * rtm_intergrated * rtm_integrated * rtm_integrated * rtm_integrated * rtm * Delete build/lib/Pose2Sim directory * rtm * Delete build/lib/Pose2Sim directory * Delete onnxruntime-gpu * device = cpu * add pose folder * Update tests.py * added annotation * fix typo * Should work be still lots of tests to run. Detailed commit coming soon * intermediary commit * last checks before v0.9.0 * Update continuous-integration.yml * Update tests.py * replaced tabs with spaces * unittest issue * unittest typo * deactivated display for CI test of pose detection * Try to make continuous integration work * a * b * c * d * e * f * g * h * i * j * k * l --------- Co-authored-by: HunMinKim <144449115+hunminkim98@users.noreply.github.com>
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Convert a list of JSON files to a pandas DataFrame.
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INPUTS:
Pose estimation test (#116) Edits from @hunminkim98's awesome work at integrating pose estimation into Pose2Sim with RTMLib. Most of the changes in syntax are not necessarily better, it is mostly for the code to be more consistent with the rest of the library. Thank you again for your fantastic work! General: - Automatically detects whether a valid CUDA install is available. If so, use the GPU with the ONNXRuntime backend. Otherwise, use the CPU with the OpenVINO backend - The tensorflow version used for marker augmentation was incompatible with the cuda torch installation for pose estimation: edited code and models for it to work with the latest tf version. - Added logging information to pose estimation - Readme.md: provided an installation procedure for CUDA (took me a while to find something simple and robust) - Readme.md: added information about PoseEstimation with RTMLib - added poseEstimation to tests.py - created videos for the multi-person case (used to only have json, no video), and reorganized Demo folders. Had to recreate calibration file as well Json files: - the json files only saved one person, I made it save all the detected ones - tracking was not taken into account by rtmlib, which caused issues in synchronization: fixed, waiting for merge - took the save_to_openpose function out from the main function - minified the json files (they take less space when all spaces are removed) Detection results: - Compared the triangulated locations of RTMpose keypoints to the ones of OpenPose to potentially edit model marker locations on OpenSim. Did not seem to need it. Others in Config.toml: - removed the "to_openpose" option, which is not needed - added the flag: save_video = 'to_images' # 'to_video' or 'to_images' or ['to_video', 'to_images'] - changed the way frame_range was handled (made me change synchronization in depth, as well as personAssociation and triangulation) - added the flag: time_range_around_maxspeed in synchronization - automatically detect framerate from video, or set to 60 fps if we work from images (or give a value) - frame_range -> time_range - moved height and weight to project (only read for markerAugmentation, and in the future for automatic scaling) - removed reorder_trc from triangulation and Config -> call it for markerAugmentation instead Others: - Provided an installation procedure for OpenSim (for the future) and made continuous installation check its install (a bit harder since it cannot be installed via pip) - scaling from motion instead of static pose (will have to study whether it's as good or not) - added logging to synchronization - Struggled quite a bit with continuous integration * Starting point of integrating RTMPose into Pose2Sim. (#111) * RTM_to_Open Convert format from RTMPose to OpenPose * rtm_intergrated * rtm_integrated * rtm_integrated * rtm_integrated * rtm * Delete build/lib/Pose2Sim directory * rtm * Delete build/lib/Pose2Sim directory * Delete onnxruntime-gpu * device = cpu * add pose folder * Update tests.py * added annotation * fix typo * Should work be still lots of tests to run. Detailed commit coming soon * intermediary commit * last checks before v0.9.0 * Update continuous-integration.yml * Update tests.py * replaced tabs with spaces * unittest issue * unittest typo * deactivated display for CI test of pose detection * Try to make continuous integration work * a * b * c * d * e * f * g * h * i * j * k * l --------- Co-authored-by: HunMinKim <144449115+hunminkim98@users.noreply.github.com>
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- json_files: list of str. Paths of the the JSON files.
- likelihood_threshold: float. Drop values if confidence is below likelihood_threshold.
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- frame_range: select files within frame_range.
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OUTPUTS:
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- df_json_coords: dataframe. Extracted coordinates in a pandas dataframe.
'''
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nb_coord = 25 # int(len(json_data)/3)
json_coords = []
Pose estimation test (#116) Edits from @hunminkim98's awesome work at integrating pose estimation into Pose2Sim with RTMLib. Most of the changes in syntax are not necessarily better, it is mostly for the code to be more consistent with the rest of the library. Thank you again for your fantastic work! General: - Automatically detects whether a valid CUDA install is available. If so, use the GPU with the ONNXRuntime backend. Otherwise, use the CPU with the OpenVINO backend - The tensorflow version used for marker augmentation was incompatible with the cuda torch installation for pose estimation: edited code and models for it to work with the latest tf version. - Added logging information to pose estimation - Readme.md: provided an installation procedure for CUDA (took me a while to find something simple and robust) - Readme.md: added information about PoseEstimation with RTMLib - added poseEstimation to tests.py - created videos for the multi-person case (used to only have json, no video), and reorganized Demo folders. Had to recreate calibration file as well Json files: - the json files only saved one person, I made it save all the detected ones - tracking was not taken into account by rtmlib, which caused issues in synchronization: fixed, waiting for merge - took the save_to_openpose function out from the main function - minified the json files (they take less space when all spaces are removed) Detection results: - Compared the triangulated locations of RTMpose keypoints to the ones of OpenPose to potentially edit model marker locations on OpenSim. Did not seem to need it. Others in Config.toml: - removed the "to_openpose" option, which is not needed - added the flag: save_video = 'to_images' # 'to_video' or 'to_images' or ['to_video', 'to_images'] - changed the way frame_range was handled (made me change synchronization in depth, as well as personAssociation and triangulation) - added the flag: time_range_around_maxspeed in synchronization - automatically detect framerate from video, or set to 60 fps if we work from images (or give a value) - frame_range -> time_range - moved height and weight to project (only read for markerAugmentation, and in the future for automatic scaling) - removed reorder_trc from triangulation and Config -> call it for markerAugmentation instead Others: - Provided an installation procedure for OpenSim (for the future) and made continuous installation check its install (a bit harder since it cannot be installed via pip) - scaling from motion instead of static pose (will have to study whether it's as good or not) - added logging to synchronization - Struggled quite a bit with continuous integration * Starting point of integrating RTMPose into Pose2Sim. (#111) * RTM_to_Open Convert format from RTMPose to OpenPose * rtm_intergrated * rtm_integrated * rtm_integrated * rtm_integrated * rtm * Delete build/lib/Pose2Sim directory * rtm * Delete build/lib/Pose2Sim directory * Delete onnxruntime-gpu * device = cpu * add pose folder * Update tests.py * added annotation * fix typo * Should work be still lots of tests to run. Detailed commit coming soon * intermediary commit * last checks before v0.9.0 * Update continuous-integration.yml * Update tests.py * replaced tabs with spaces * unittest issue * unittest typo * deactivated display for CI test of pose detection * Try to make continuous integration work * a * b * c * d * e * f * g * h * i * j * k * l --------- Co-authored-by: HunMinKim <144449115+hunminkim98@users.noreply.github.com>
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for j_p in json_files:
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with open(j_p) as j_f:
try:
json_data = json.load(j_f)['people'][0]['pose_keypoints_2d']
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# remove points with low confidence
Pose estimation test (#116) Edits from @hunminkim98's awesome work at integrating pose estimation into Pose2Sim with RTMLib. Most of the changes in syntax are not necessarily better, it is mostly for the code to be more consistent with the rest of the library. Thank you again for your fantastic work! General: - Automatically detects whether a valid CUDA install is available. If so, use the GPU with the ONNXRuntime backend. Otherwise, use the CPU with the OpenVINO backend - The tensorflow version used for marker augmentation was incompatible with the cuda torch installation for pose estimation: edited code and models for it to work with the latest tf version. - Added logging information to pose estimation - Readme.md: provided an installation procedure for CUDA (took me a while to find something simple and robust) - Readme.md: added information about PoseEstimation with RTMLib - added poseEstimation to tests.py - created videos for the multi-person case (used to only have json, no video), and reorganized Demo folders. Had to recreate calibration file as well Json files: - the json files only saved one person, I made it save all the detected ones - tracking was not taken into account by rtmlib, which caused issues in synchronization: fixed, waiting for merge - took the save_to_openpose function out from the main function - minified the json files (they take less space when all spaces are removed) Detection results: - Compared the triangulated locations of RTMpose keypoints to the ones of OpenPose to potentially edit model marker locations on OpenSim. Did not seem to need it. Others in Config.toml: - removed the "to_openpose" option, which is not needed - added the flag: save_video = 'to_images' # 'to_video' or 'to_images' or ['to_video', 'to_images'] - changed the way frame_range was handled (made me change synchronization in depth, as well as personAssociation and triangulation) - added the flag: time_range_around_maxspeed in synchronization - automatically detect framerate from video, or set to 60 fps if we work from images (or give a value) - frame_range -> time_range - moved height and weight to project (only read for markerAugmentation, and in the future for automatic scaling) - removed reorder_trc from triangulation and Config -> call it for markerAugmentation instead Others: - Provided an installation procedure for OpenSim (for the future) and made continuous installation check its install (a bit harder since it cannot be installed via pip) - scaling from motion instead of static pose (will have to study whether it's as good or not) - added logging to synchronization - Struggled quite a bit with continuous integration * Starting point of integrating RTMPose into Pose2Sim. (#111) * RTM_to_Open Convert format from RTMPose to OpenPose * rtm_intergrated * rtm_integrated * rtm_integrated * rtm_integrated * rtm * Delete build/lib/Pose2Sim directory * rtm * Delete build/lib/Pose2Sim directory * Delete onnxruntime-gpu * device = cpu * add pose folder * Update tests.py * added annotation * fix typo * Should work be still lots of tests to run. Detailed commit coming soon * intermediary commit * last checks before v0.9.0 * Update continuous-integration.yml * Update tests.py * replaced tabs with spaces * unittest issue * unittest typo * deactivated display for CI test of pose detection * Try to make continuous integration work * a * b * c * d * e * f * g * h * i * j * k * l --------- Co-authored-by: HunMinKim <144449115+hunminkim98@users.noreply.github.com>
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json_data = np.array([[json_data[3*i],json_data[3*i+1],json_data[3*i+2]] if json_data[3*i+2]>likelihood_threshold else [0.,0.,0.] for i in range(nb_coord)]).ravel().tolist()
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except:
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# print(f'No person found in {os.path.basename(json_dir)}, frame {i}')
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json_data = [np.nan] * 25*3
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json_coords.append(json_data)
df_json_coords = pd.DataFrame(json_coords)
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return df_json_coords
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def drop_col(df, col_nb):
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'''
Drops every nth column from a DataFrame.
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INPUTS:
- df: dataframe. The DataFrame from which columns will be dropped.
- col_nb: int. The column number to drop.
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OUTPUTS:
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- dataframe: DataFrame with dropped columns.
'''
idx_col = list(range(col_nb-1, df.shape[1], col_nb))
df_dropped = df.drop(idx_col, axis=1)
df_dropped.columns = range(df_dropped.columns.size)
return df_dropped
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def vert_speed(df, axis='y'):
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'''
Calculate the vertical speed of a DataFrame along a specified axis.
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INPUTS:
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- df: dataframe. DataFrame of 2D coordinates.
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- axis: str. The axis along which to calculate speed. 'x', 'y', or 'z', default is 'y'.
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OUTPUTS:
- df_vert_speed: DataFrame of vertical speed values.
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'''
axis_dict = {'x':0, 'y':1, 'z':2}
df_diff = df.diff()
df_diff = df_diff.fillna(df_diff.iloc[1]*2)
df_vert_speed = pd.DataFrame([df_diff.loc[:, 2*k + axis_dict[axis]] for k in range(int(df_diff.shape[1] / 2))]).T # modified ( df_diff.shape[1]*2 to df_diff.shape[1] / 2 )
df_vert_speed.columns = np.arange(len(df_vert_speed.columns))
return df_vert_speed
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def interpolate_zeros_nans(col, kind):
'''
Interpolate missing points (of value nan)
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INPUTS:
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- col: pandas column of coordinates
- kind: 'linear', 'slinear', 'quadratic', 'cubic'. Default 'cubic'
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OUTPUTS:
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- col_interp: interpolated pandas column
'''
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mask = ~(np.isnan(col) | col.eq(0)) # true where nans or zeros
idx_good = np.where(mask)[0]
try:
f_interp = interpolate.interp1d(idx_good, col[idx_good], kind=kind, bounds_error=False)
col_interp = np.where(mask, col, f_interp(col.index))
return col_interp
except:
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# print('No good values to interpolate')
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return col
Pose estimation test (#116) Edits from @hunminkim98's awesome work at integrating pose estimation into Pose2Sim with RTMLib. Most of the changes in syntax are not necessarily better, it is mostly for the code to be more consistent with the rest of the library. Thank you again for your fantastic work! General: - Automatically detects whether a valid CUDA install is available. If so, use the GPU with the ONNXRuntime backend. Otherwise, use the CPU with the OpenVINO backend - The tensorflow version used for marker augmentation was incompatible with the cuda torch installation for pose estimation: edited code and models for it to work with the latest tf version. - Added logging information to pose estimation - Readme.md: provided an installation procedure for CUDA (took me a while to find something simple and robust) - Readme.md: added information about PoseEstimation with RTMLib - added poseEstimation to tests.py - created videos for the multi-person case (used to only have json, no video), and reorganized Demo folders. Had to recreate calibration file as well Json files: - the json files only saved one person, I made it save all the detected ones - tracking was not taken into account by rtmlib, which caused issues in synchronization: fixed, waiting for merge - took the save_to_openpose function out from the main function - minified the json files (they take less space when all spaces are removed) Detection results: - Compared the triangulated locations of RTMpose keypoints to the ones of OpenPose to potentially edit model marker locations on OpenSim. Did not seem to need it. Others in Config.toml: - removed the "to_openpose" option, which is not needed - added the flag: save_video = 'to_images' # 'to_video' or 'to_images' or ['to_video', 'to_images'] - changed the way frame_range was handled (made me change synchronization in depth, as well as personAssociation and triangulation) - added the flag: time_range_around_maxspeed in synchronization - automatically detect framerate from video, or set to 60 fps if we work from images (or give a value) - frame_range -> time_range - moved height and weight to project (only read for markerAugmentation, and in the future for automatic scaling) - removed reorder_trc from triangulation and Config -> call it for markerAugmentation instead Others: - Provided an installation procedure for OpenSim (for the future) and made continuous installation check its install (a bit harder since it cannot be installed via pip) - scaling from motion instead of static pose (will have to study whether it's as good or not) - added logging to synchronization - Struggled quite a bit with continuous integration * Starting point of integrating RTMPose into Pose2Sim. (#111) * RTM_to_Open Convert format from RTMPose to OpenPose * rtm_intergrated * rtm_integrated * rtm_integrated * rtm_integrated * rtm * Delete build/lib/Pose2Sim directory * rtm * Delete build/lib/Pose2Sim directory * Delete onnxruntime-gpu * device = cpu * add pose folder * Update tests.py * added annotation * fix typo * Should work be still lots of tests to run. Detailed commit coming soon * intermediary commit * last checks before v0.9.0 * Update continuous-integration.yml * Update tests.py * replaced tabs with spaces * unittest issue * unittest typo * deactivated display for CI test of pose detection * Try to make continuous integration work * a * b * c * d * e * f * g * h * i * j * k * l --------- Co-authored-by: HunMinKim <144449115+hunminkim98@users.noreply.github.com>
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def time_lagged_cross_corr(camx, camy, lag_range, show=True, ref_cam_id=0, cam_id=1):
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'''
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Compute the time-lagged cross-correlation between two pandas series.
INPUTS:
- camx: pandas series. The first time series (coordinates of reference camera).
- camy: pandas series. The second time series (camera to compare).
- lag_range: int or list. The range of frames for which to compute cross-correlation.
- show: bool. If True, display the cross-correlation plot.
Pose estimation test (#116) Edits from @hunminkim98's awesome work at integrating pose estimation into Pose2Sim with RTMLib. Most of the changes in syntax are not necessarily better, it is mostly for the code to be more consistent with the rest of the library. Thank you again for your fantastic work! General: - Automatically detects whether a valid CUDA install is available. If so, use the GPU with the ONNXRuntime backend. Otherwise, use the CPU with the OpenVINO backend - The tensorflow version used for marker augmentation was incompatible with the cuda torch installation for pose estimation: edited code and models for it to work with the latest tf version. - Added logging information to pose estimation - Readme.md: provided an installation procedure for CUDA (took me a while to find something simple and robust) - Readme.md: added information about PoseEstimation with RTMLib - added poseEstimation to tests.py - created videos for the multi-person case (used to only have json, no video), and reorganized Demo folders. Had to recreate calibration file as well Json files: - the json files only saved one person, I made it save all the detected ones - tracking was not taken into account by rtmlib, which caused issues in synchronization: fixed, waiting for merge - took the save_to_openpose function out from the main function - minified the json files (they take less space when all spaces are removed) Detection results: - Compared the triangulated locations of RTMpose keypoints to the ones of OpenPose to potentially edit model marker locations on OpenSim. Did not seem to need it. Others in Config.toml: - removed the "to_openpose" option, which is not needed - added the flag: save_video = 'to_images' # 'to_video' or 'to_images' or ['to_video', 'to_images'] - changed the way frame_range was handled (made me change synchronization in depth, as well as personAssociation and triangulation) - added the flag: time_range_around_maxspeed in synchronization - automatically detect framerate from video, or set to 60 fps if we work from images (or give a value) - frame_range -> time_range - moved height and weight to project (only read for markerAugmentation, and in the future for automatic scaling) - removed reorder_trc from triangulation and Config -> call it for markerAugmentation instead Others: - Provided an installation procedure for OpenSim (for the future) and made continuous installation check its install (a bit harder since it cannot be installed via pip) - scaling from motion instead of static pose (will have to study whether it's as good or not) - added logging to synchronization - Struggled quite a bit with continuous integration * Starting point of integrating RTMPose into Pose2Sim. (#111) * RTM_to_Open Convert format from RTMPose to OpenPose * rtm_intergrated * rtm_integrated * rtm_integrated * rtm_integrated * rtm * Delete build/lib/Pose2Sim directory * rtm * Delete build/lib/Pose2Sim directory * Delete onnxruntime-gpu * device = cpu * add pose folder * Update tests.py * added annotation * fix typo * Should work be still lots of tests to run. Detailed commit coming soon * intermediary commit * last checks before v0.9.0 * Update continuous-integration.yml * Update tests.py * replaced tabs with spaces * unittest issue * unittest typo * deactivated display for CI test of pose detection * Try to make continuous integration work * a * b * c * d * e * f * g * h * i * j * k * l --------- Co-authored-by: HunMinKim <144449115+hunminkim98@users.noreply.github.com>
2024-07-09 22:39:33 +08:00
- ref_cam_id: int. The reference camera id.
- cam_id: int. The camera id to compare.
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OUTPUTS:
- offset: int. The time offset for which the correlation is highest.
- max_corr: float. The maximum correlation value.
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'''
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if isinstance(lag_range, int):
lag_range = [-lag_range, lag_range]
pearson_r = [camx.corr(camy.shift(lag)) for lag in range(lag_range[0], lag_range[1])]
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offset = int(np.floor(len(pearson_r)/2)-np.argmax(pearson_r))
if not np.isnan(pearson_r).all():
max_corr = np.nanmax(pearson_r)
if show:
f, ax = plt.subplots(2,1)
# speed
Pose estimation test (#116) Edits from @hunminkim98's awesome work at integrating pose estimation into Pose2Sim with RTMLib. Most of the changes in syntax are not necessarily better, it is mostly for the code to be more consistent with the rest of the library. Thank you again for your fantastic work! General: - Automatically detects whether a valid CUDA install is available. If so, use the GPU with the ONNXRuntime backend. Otherwise, use the CPU with the OpenVINO backend - The tensorflow version used for marker augmentation was incompatible with the cuda torch installation for pose estimation: edited code and models for it to work with the latest tf version. - Added logging information to pose estimation - Readme.md: provided an installation procedure for CUDA (took me a while to find something simple and robust) - Readme.md: added information about PoseEstimation with RTMLib - added poseEstimation to tests.py - created videos for the multi-person case (used to only have json, no video), and reorganized Demo folders. Had to recreate calibration file as well Json files: - the json files only saved one person, I made it save all the detected ones - tracking was not taken into account by rtmlib, which caused issues in synchronization: fixed, waiting for merge - took the save_to_openpose function out from the main function - minified the json files (they take less space when all spaces are removed) Detection results: - Compared the triangulated locations of RTMpose keypoints to the ones of OpenPose to potentially edit model marker locations on OpenSim. Did not seem to need it. Others in Config.toml: - removed the "to_openpose" option, which is not needed - added the flag: save_video = 'to_images' # 'to_video' or 'to_images' or ['to_video', 'to_images'] - changed the way frame_range was handled (made me change synchronization in depth, as well as personAssociation and triangulation) - added the flag: time_range_around_maxspeed in synchronization - automatically detect framerate from video, or set to 60 fps if we work from images (or give a value) - frame_range -> time_range - moved height and weight to project (only read for markerAugmentation, and in the future for automatic scaling) - removed reorder_trc from triangulation and Config -> call it for markerAugmentation instead Others: - Provided an installation procedure for OpenSim (for the future) and made continuous installation check its install (a bit harder since it cannot be installed via pip) - scaling from motion instead of static pose (will have to study whether it's as good or not) - added logging to synchronization - Struggled quite a bit with continuous integration * Starting point of integrating RTMPose into Pose2Sim. (#111) * RTM_to_Open Convert format from RTMPose to OpenPose * rtm_intergrated * rtm_integrated * rtm_integrated * rtm_integrated * rtm * Delete build/lib/Pose2Sim directory * rtm * Delete build/lib/Pose2Sim directory * Delete onnxruntime-gpu * device = cpu * add pose folder * Update tests.py * added annotation * fix typo * Should work be still lots of tests to run. Detailed commit coming soon * intermediary commit * last checks before v0.9.0 * Update continuous-integration.yml * Update tests.py * replaced tabs with spaces * unittest issue * unittest typo * deactivated display for CI test of pose detection * Try to make continuous integration work * a * b * c * d * e * f * g * h * i * j * k * l --------- Co-authored-by: HunMinKim <144449115+hunminkim98@users.noreply.github.com>
2024-07-09 22:39:33 +08:00
camx.plot(ax=ax[0], label = f'Reference: camera #{ref_cam_id}')
camy.plot(ax=ax[0], label = f'Compared: camera #{cam_id}')
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ax[0].set(xlabel='Frame', ylabel='Speed (px/frame)')
ax[0].legend()
# time lagged cross-correlation
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ax[1].plot(list(range(lag_range[0], lag_range[1])), pearson_r)
ax[1].axvline(np.ceil(len(pearson_r)/2) + lag_range[0],color='k',linestyle='--')
ax[1].axvline(np.argmax(pearson_r) + lag_range[0],color='r',linestyle='--',label='Peak synchrony')
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plt.annotate(f'Max correlation={np.round(max_corr,2)}', xy=(0.05, 0.9), xycoords='axes fraction')
ax[1].set(title=f'Offset = {offset} frames', xlabel='Offset (frames)',ylabel='Pearson r')
plt.legend()
f.tight_layout()
plt.show()
else:
max_corr = 0
offset = 0
if show:
# print('No good values to interpolate')
pass
return offset, max_corr
def synchronize_cams_all(config_dict):
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'''
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Post-synchronize your cameras in case they are not natively synchronized.
For each camera, computes mean vertical speed for the chosen keypoints,
and find the time offset for which their correlation is highest.
Depending on the analysed motion, all keypoints can be taken into account,
or a list of them, or the right or left side.
All frames can be considered, or only those around a specific time (typically,
the time when there is a single participant in the scene performing a clear vertical motion).
Has also been successfully tested for synchronizing random walkswith random walks.
Pose estimation test (#116) Edits from @hunminkim98's awesome work at integrating pose estimation into Pose2Sim with RTMLib. Most of the changes in syntax are not necessarily better, it is mostly for the code to be more consistent with the rest of the library. Thank you again for your fantastic work! General: - Automatically detects whether a valid CUDA install is available. If so, use the GPU with the ONNXRuntime backend. Otherwise, use the CPU with the OpenVINO backend - The tensorflow version used for marker augmentation was incompatible with the cuda torch installation for pose estimation: edited code and models for it to work with the latest tf version. - Added logging information to pose estimation - Readme.md: provided an installation procedure for CUDA (took me a while to find something simple and robust) - Readme.md: added information about PoseEstimation with RTMLib - added poseEstimation to tests.py - created videos for the multi-person case (used to only have json, no video), and reorganized Demo folders. Had to recreate calibration file as well Json files: - the json files only saved one person, I made it save all the detected ones - tracking was not taken into account by rtmlib, which caused issues in synchronization: fixed, waiting for merge - took the save_to_openpose function out from the main function - minified the json files (they take less space when all spaces are removed) Detection results: - Compared the triangulated locations of RTMpose keypoints to the ones of OpenPose to potentially edit model marker locations on OpenSim. Did not seem to need it. Others in Config.toml: - removed the "to_openpose" option, which is not needed - added the flag: save_video = 'to_images' # 'to_video' or 'to_images' or ['to_video', 'to_images'] - changed the way frame_range was handled (made me change synchronization in depth, as well as personAssociation and triangulation) - added the flag: time_range_around_maxspeed in synchronization - automatically detect framerate from video, or set to 60 fps if we work from images (or give a value) - frame_range -> time_range - moved height and weight to project (only read for markerAugmentation, and in the future for automatic scaling) - removed reorder_trc from triangulation and Config -> call it for markerAugmentation instead Others: - Provided an installation procedure for OpenSim (for the future) and made continuous installation check its install (a bit harder since it cannot be installed via pip) - scaling from motion instead of static pose (will have to study whether it's as good or not) - added logging to synchronization - Struggled quite a bit with continuous integration * Starting point of integrating RTMPose into Pose2Sim. (#111) * RTM_to_Open Convert format from RTMPose to OpenPose * rtm_intergrated * rtm_integrated * rtm_integrated * rtm_integrated * rtm * Delete build/lib/Pose2Sim directory * rtm * Delete build/lib/Pose2Sim directory * Delete onnxruntime-gpu * device = cpu * add pose folder * Update tests.py * added annotation * fix typo * Should work be still lots of tests to run. Detailed commit coming soon * intermediary commit * last checks before v0.9.0 * Update continuous-integration.yml * Update tests.py * replaced tabs with spaces * unittest issue * unittest typo * deactivated display for CI test of pose detection * Try to make continuous integration work * a * b * c * d * e * f * g * h * i * j * k * l --------- Co-authored-by: HunMinKim <144449115+hunminkim98@users.noreply.github.com>
2024-07-09 22:39:33 +08:00
Keypoints whose likelihood is too low are filtered out; and the remaining ones are
filtered with a butterworth filter.
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INPUTS:
- json files from each camera folders
- a Config.toml file
- a skeleton model
OUTPUTS:
- synchronized json files for each camera
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'''
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# Get parameters from Config.toml
project_dir = config_dict.get('project').get('project_dir')
pose_dir = os.path.realpath(os.path.join(project_dir, 'pose'))
2024-04-12 07:59:32 +08:00
pose_model = config_dict.get('pose').get('pose_model')
Pose estimation test (#116) Edits from @hunminkim98's awesome work at integrating pose estimation into Pose2Sim with RTMLib. Most of the changes in syntax are not necessarily better, it is mostly for the code to be more consistent with the rest of the library. Thank you again for your fantastic work! General: - Automatically detects whether a valid CUDA install is available. If so, use the GPU with the ONNXRuntime backend. Otherwise, use the CPU with the OpenVINO backend - The tensorflow version used for marker augmentation was incompatible with the cuda torch installation for pose estimation: edited code and models for it to work with the latest tf version. - Added logging information to pose estimation - Readme.md: provided an installation procedure for CUDA (took me a while to find something simple and robust) - Readme.md: added information about PoseEstimation with RTMLib - added poseEstimation to tests.py - created videos for the multi-person case (used to only have json, no video), and reorganized Demo folders. Had to recreate calibration file as well Json files: - the json files only saved one person, I made it save all the detected ones - tracking was not taken into account by rtmlib, which caused issues in synchronization: fixed, waiting for merge - took the save_to_openpose function out from the main function - minified the json files (they take less space when all spaces are removed) Detection results: - Compared the triangulated locations of RTMpose keypoints to the ones of OpenPose to potentially edit model marker locations on OpenSim. Did not seem to need it. Others in Config.toml: - removed the "to_openpose" option, which is not needed - added the flag: save_video = 'to_images' # 'to_video' or 'to_images' or ['to_video', 'to_images'] - changed the way frame_range was handled (made me change synchronization in depth, as well as personAssociation and triangulation) - added the flag: time_range_around_maxspeed in synchronization - automatically detect framerate from video, or set to 60 fps if we work from images (or give a value) - frame_range -> time_range - moved height and weight to project (only read for markerAugmentation, and in the future for automatic scaling) - removed reorder_trc from triangulation and Config -> call it for markerAugmentation instead Others: - Provided an installation procedure for OpenSim (for the future) and made continuous installation check its install (a bit harder since it cannot be installed via pip) - scaling from motion instead of static pose (will have to study whether it's as good or not) - added logging to synchronization - Struggled quite a bit with continuous integration * Starting point of integrating RTMPose into Pose2Sim. (#111) * RTM_to_Open Convert format from RTMPose to OpenPose * rtm_intergrated * rtm_integrated * rtm_integrated * rtm_integrated * rtm * Delete build/lib/Pose2Sim directory * rtm * Delete build/lib/Pose2Sim directory * Delete onnxruntime-gpu * device = cpu * add pose folder * Update tests.py * added annotation * fix typo * Should work be still lots of tests to run. Detailed commit coming soon * intermediary commit * last checks before v0.9.0 * Update continuous-integration.yml * Update tests.py * replaced tabs with spaces * unittest issue * unittest typo * deactivated display for CI test of pose detection * Try to make continuous integration work * a * b * c * d * e * f * g * h * i * j * k * l --------- Co-authored-by: HunMinKim <144449115+hunminkim98@users.noreply.github.com>
2024-07-09 22:39:33 +08:00
multi_person = config_dict.get('project').get('multi_person')
2024-03-19 17:33:07 +08:00
fps = config_dict.get('project').get('frame_rate')
Pose estimation test (#116) Edits from @hunminkim98's awesome work at integrating pose estimation into Pose2Sim with RTMLib. Most of the changes in syntax are not necessarily better, it is mostly for the code to be more consistent with the rest of the library. Thank you again for your fantastic work! General: - Automatically detects whether a valid CUDA install is available. If so, use the GPU with the ONNXRuntime backend. Otherwise, use the CPU with the OpenVINO backend - The tensorflow version used for marker augmentation was incompatible with the cuda torch installation for pose estimation: edited code and models for it to work with the latest tf version. - Added logging information to pose estimation - Readme.md: provided an installation procedure for CUDA (took me a while to find something simple and robust) - Readme.md: added information about PoseEstimation with RTMLib - added poseEstimation to tests.py - created videos for the multi-person case (used to only have json, no video), and reorganized Demo folders. Had to recreate calibration file as well Json files: - the json files only saved one person, I made it save all the detected ones - tracking was not taken into account by rtmlib, which caused issues in synchronization: fixed, waiting for merge - took the save_to_openpose function out from the main function - minified the json files (they take less space when all spaces are removed) Detection results: - Compared the triangulated locations of RTMpose keypoints to the ones of OpenPose to potentially edit model marker locations on OpenSim. Did not seem to need it. Others in Config.toml: - removed the "to_openpose" option, which is not needed - added the flag: save_video = 'to_images' # 'to_video' or 'to_images' or ['to_video', 'to_images'] - changed the way frame_range was handled (made me change synchronization in depth, as well as personAssociation and triangulation) - added the flag: time_range_around_maxspeed in synchronization - automatically detect framerate from video, or set to 60 fps if we work from images (or give a value) - frame_range -> time_range - moved height and weight to project (only read for markerAugmentation, and in the future for automatic scaling) - removed reorder_trc from triangulation and Config -> call it for markerAugmentation instead Others: - Provided an installation procedure for OpenSim (for the future) and made continuous installation check its install (a bit harder since it cannot be installed via pip) - scaling from motion instead of static pose (will have to study whether it's as good or not) - added logging to synchronization - Struggled quite a bit with continuous integration * Starting point of integrating RTMPose into Pose2Sim. (#111) * RTM_to_Open Convert format from RTMPose to OpenPose * rtm_intergrated * rtm_integrated * rtm_integrated * rtm_integrated * rtm * Delete build/lib/Pose2Sim directory * rtm * Delete build/lib/Pose2Sim directory * Delete onnxruntime-gpu * device = cpu * add pose folder * Update tests.py * added annotation * fix typo * Should work be still lots of tests to run. Detailed commit coming soon * intermediary commit * last checks before v0.9.0 * Update continuous-integration.yml * Update tests.py * replaced tabs with spaces * unittest issue * unittest typo * deactivated display for CI test of pose detection * Try to make continuous integration work * a * b * c * d * e * f * g * h * i * j * k * l --------- Co-authored-by: HunMinKim <144449115+hunminkim98@users.noreply.github.com>
2024-07-09 22:39:33 +08:00
frame_range = config_dict.get('project').get('frame_range')
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display_sync_plots = config_dict.get('synchronization').get('display_sync_plots')
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keypoints_to_consider = config_dict.get('synchronization').get('keypoints_to_consider')
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approx_time_maxspeed = config_dict.get('synchronization').get('approx_time_maxspeed')
Pose estimation test (#116) Edits from @hunminkim98's awesome work at integrating pose estimation into Pose2Sim with RTMLib. Most of the changes in syntax are not necessarily better, it is mostly for the code to be more consistent with the rest of the library. Thank you again for your fantastic work! General: - Automatically detects whether a valid CUDA install is available. If so, use the GPU with the ONNXRuntime backend. Otherwise, use the CPU with the OpenVINO backend - The tensorflow version used for marker augmentation was incompatible with the cuda torch installation for pose estimation: edited code and models for it to work with the latest tf version. - Added logging information to pose estimation - Readme.md: provided an installation procedure for CUDA (took me a while to find something simple and robust) - Readme.md: added information about PoseEstimation with RTMLib - added poseEstimation to tests.py - created videos for the multi-person case (used to only have json, no video), and reorganized Demo folders. Had to recreate calibration file as well Json files: - the json files only saved one person, I made it save all the detected ones - tracking was not taken into account by rtmlib, which caused issues in synchronization: fixed, waiting for merge - took the save_to_openpose function out from the main function - minified the json files (they take less space when all spaces are removed) Detection results: - Compared the triangulated locations of RTMpose keypoints to the ones of OpenPose to potentially edit model marker locations on OpenSim. Did not seem to need it. Others in Config.toml: - removed the "to_openpose" option, which is not needed - added the flag: save_video = 'to_images' # 'to_video' or 'to_images' or ['to_video', 'to_images'] - changed the way frame_range was handled (made me change synchronization in depth, as well as personAssociation and triangulation) - added the flag: time_range_around_maxspeed in synchronization - automatically detect framerate from video, or set to 60 fps if we work from images (or give a value) - frame_range -> time_range - moved height and weight to project (only read for markerAugmentation, and in the future for automatic scaling) - removed reorder_trc from triangulation and Config -> call it for markerAugmentation instead Others: - Provided an installation procedure for OpenSim (for the future) and made continuous installation check its install (a bit harder since it cannot be installed via pip) - scaling from motion instead of static pose (will have to study whether it's as good or not) - added logging to synchronization - Struggled quite a bit with continuous integration * Starting point of integrating RTMPose into Pose2Sim. (#111) * RTM_to_Open Convert format from RTMPose to OpenPose * rtm_intergrated * rtm_integrated * rtm_integrated * rtm_integrated * rtm * Delete build/lib/Pose2Sim directory * rtm * Delete build/lib/Pose2Sim directory * Delete onnxruntime-gpu * device = cpu * add pose folder * Update tests.py * added annotation * fix typo * Should work be still lots of tests to run. Detailed commit coming soon * intermediary commit * last checks before v0.9.0 * Update continuous-integration.yml * Update tests.py * replaced tabs with spaces * unittest issue * unittest typo * deactivated display for CI test of pose detection * Try to make continuous integration work * a * b * c * d * e * f * g * h * i * j * k * l --------- Co-authored-by: HunMinKim <144449115+hunminkim98@users.noreply.github.com>
2024-07-09 22:39:33 +08:00
time_range_around_maxspeed = config_dict.get('synchronization').get('time_range_around_maxspeed')
likelihood_threshold = config_dict.get('synchronization').get('likelihood_threshold')
filter_cutoff = int(config_dict.get('synchronization').get('filter_cutoff'))
filter_order = int(config_dict.get('synchronization').get('filter_order'))
# Determine frame rate
video_dir = os.path.join(project_dir, 'videos')
vid_img_extension = config_dict['pose']['vid_img_extension']
video_files = glob.glob(os.path.join(video_dir, '*'+vid_img_extension))
if fps == 'auto':
try:
cap = cv2.VideoCapture(video_files[0])
cap.read()
if cap.read()[0] == False:
raise
fps = int(cap.get(cv2.CAP_PROP_FPS))
except:
fps = 60
lag_range = time_range_around_maxspeed*fps # frames
2024-04-12 07:59:32 +08:00
Pose estimation test (#116) Edits from @hunminkim98's awesome work at integrating pose estimation into Pose2Sim with RTMLib. Most of the changes in syntax are not necessarily better, it is mostly for the code to be more consistent with the rest of the library. Thank you again for your fantastic work! General: - Automatically detects whether a valid CUDA install is available. If so, use the GPU with the ONNXRuntime backend. Otherwise, use the CPU with the OpenVINO backend - The tensorflow version used for marker augmentation was incompatible with the cuda torch installation for pose estimation: edited code and models for it to work with the latest tf version. - Added logging information to pose estimation - Readme.md: provided an installation procedure for CUDA (took me a while to find something simple and robust) - Readme.md: added information about PoseEstimation with RTMLib - added poseEstimation to tests.py - created videos for the multi-person case (used to only have json, no video), and reorganized Demo folders. Had to recreate calibration file as well Json files: - the json files only saved one person, I made it save all the detected ones - tracking was not taken into account by rtmlib, which caused issues in synchronization: fixed, waiting for merge - took the save_to_openpose function out from the main function - minified the json files (they take less space when all spaces are removed) Detection results: - Compared the triangulated locations of RTMpose keypoints to the ones of OpenPose to potentially edit model marker locations on OpenSim. Did not seem to need it. Others in Config.toml: - removed the "to_openpose" option, which is not needed - added the flag: save_video = 'to_images' # 'to_video' or 'to_images' or ['to_video', 'to_images'] - changed the way frame_range was handled (made me change synchronization in depth, as well as personAssociation and triangulation) - added the flag: time_range_around_maxspeed in synchronization - automatically detect framerate from video, or set to 60 fps if we work from images (or give a value) - frame_range -> time_range - moved height and weight to project (only read for markerAugmentation, and in the future for automatic scaling) - removed reorder_trc from triangulation and Config -> call it for markerAugmentation instead Others: - Provided an installation procedure for OpenSim (for the future) and made continuous installation check its install (a bit harder since it cannot be installed via pip) - scaling from motion instead of static pose (will have to study whether it's as good or not) - added logging to synchronization - Struggled quite a bit with continuous integration * Starting point of integrating RTMPose into Pose2Sim. (#111) * RTM_to_Open Convert format from RTMPose to OpenPose * rtm_intergrated * rtm_integrated * rtm_integrated * rtm_integrated * rtm * Delete build/lib/Pose2Sim directory * rtm * Delete build/lib/Pose2Sim directory * Delete onnxruntime-gpu * device = cpu * add pose folder * Update tests.py * added annotation * fix typo * Should work be still lots of tests to run. Detailed commit coming soon * intermediary commit * last checks before v0.9.0 * Update continuous-integration.yml * Update tests.py * replaced tabs with spaces * unittest issue * unittest typo * deactivated display for CI test of pose detection * Try to make continuous integration work * a * b * c * d * e * f * g * h * i * j * k * l --------- Co-authored-by: HunMinKim <144449115+hunminkim98@users.noreply.github.com>
2024-07-09 22:39:33 +08:00
# Warning if multi_person
if multi_person:
2024-07-17 22:50:14 +08:00
logging.warning('\nYou set your project as a multi-person one: make sure you set `approx_time_maxspeed` and `time_range_around_maxspeed` at times where one single person is in the scene, or you may get inaccurate results.')
Pose estimation test (#116) Edits from @hunminkim98's awesome work at integrating pose estimation into Pose2Sim with RTMLib. Most of the changes in syntax are not necessarily better, it is mostly for the code to be more consistent with the rest of the library. Thank you again for your fantastic work! General: - Automatically detects whether a valid CUDA install is available. If so, use the GPU with the ONNXRuntime backend. Otherwise, use the CPU with the OpenVINO backend - The tensorflow version used for marker augmentation was incompatible with the cuda torch installation for pose estimation: edited code and models for it to work with the latest tf version. - Added logging information to pose estimation - Readme.md: provided an installation procedure for CUDA (took me a while to find something simple and robust) - Readme.md: added information about PoseEstimation with RTMLib - added poseEstimation to tests.py - created videos for the multi-person case (used to only have json, no video), and reorganized Demo folders. Had to recreate calibration file as well Json files: - the json files only saved one person, I made it save all the detected ones - tracking was not taken into account by rtmlib, which caused issues in synchronization: fixed, waiting for merge - took the save_to_openpose function out from the main function - minified the json files (they take less space when all spaces are removed) Detection results: - Compared the triangulated locations of RTMpose keypoints to the ones of OpenPose to potentially edit model marker locations on OpenSim. Did not seem to need it. Others in Config.toml: - removed the "to_openpose" option, which is not needed - added the flag: save_video = 'to_images' # 'to_video' or 'to_images' or ['to_video', 'to_images'] - changed the way frame_range was handled (made me change synchronization in depth, as well as personAssociation and triangulation) - added the flag: time_range_around_maxspeed in synchronization - automatically detect framerate from video, or set to 60 fps if we work from images (or give a value) - frame_range -> time_range - moved height and weight to project (only read for markerAugmentation, and in the future for automatic scaling) - removed reorder_trc from triangulation and Config -> call it for markerAugmentation instead Others: - Provided an installation procedure for OpenSim (for the future) and made continuous installation check its install (a bit harder since it cannot be installed via pip) - scaling from motion instead of static pose (will have to study whether it's as good or not) - added logging to synchronization - Struggled quite a bit with continuous integration * Starting point of integrating RTMPose into Pose2Sim. (#111) * RTM_to_Open Convert format from RTMPose to OpenPose * rtm_intergrated * rtm_integrated * rtm_integrated * rtm_integrated * rtm * Delete build/lib/Pose2Sim directory * rtm * Delete build/lib/Pose2Sim directory * Delete onnxruntime-gpu * device = cpu * add pose folder * Update tests.py * added annotation * fix typo * Should work be still lots of tests to run. Detailed commit coming soon * intermediary commit * last checks before v0.9.0 * Update continuous-integration.yml * Update tests.py * replaced tabs with spaces * unittest issue * unittest typo * deactivated display for CI test of pose detection * Try to make continuous integration work * a * b * c * d * e * f * g * h * i * j * k * l --------- Co-authored-by: HunMinKim <144449115+hunminkim98@users.noreply.github.com>
2024-07-09 22:39:33 +08:00
do_synchro = input('Do you want to continue? (y/n)')
if do_synchro.lower() not in ["y","yes"]:
logging.warning('Synchronization cancelled.')
return
else:
logging.warning('Synchronization will be attempted.\n')
2024-04-12 07:59:32 +08:00
# Retrieve keypoints from model
try: # from skeletons.py
model = eval(pose_model)
except:
try: # from Config.toml
model = DictImporter().import_(config_dict.get('pose').get(pose_model))
if model.id == 'None':
model.id = None
except:
raise NameError('Model not found in skeletons.py nor in Config.toml')
keypoints_ids = [node.id for _, _, node in RenderTree(model) if node.id!=None]
keypoints_names = [node.name for _, _, node in RenderTree(model) if node.id!=None]
2024-03-16 22:49:40 +08:00
# List json files
Pose estimation test (#116) Edits from @hunminkim98's awesome work at integrating pose estimation into Pose2Sim with RTMLib. Most of the changes in syntax are not necessarily better, it is mostly for the code to be more consistent with the rest of the library. Thank you again for your fantastic work! General: - Automatically detects whether a valid CUDA install is available. If so, use the GPU with the ONNXRuntime backend. Otherwise, use the CPU with the OpenVINO backend - The tensorflow version used for marker augmentation was incompatible with the cuda torch installation for pose estimation: edited code and models for it to work with the latest tf version. - Added logging information to pose estimation - Readme.md: provided an installation procedure for CUDA (took me a while to find something simple and robust) - Readme.md: added information about PoseEstimation with RTMLib - added poseEstimation to tests.py - created videos for the multi-person case (used to only have json, no video), and reorganized Demo folders. Had to recreate calibration file as well Json files: - the json files only saved one person, I made it save all the detected ones - tracking was not taken into account by rtmlib, which caused issues in synchronization: fixed, waiting for merge - took the save_to_openpose function out from the main function - minified the json files (they take less space when all spaces are removed) Detection results: - Compared the triangulated locations of RTMpose keypoints to the ones of OpenPose to potentially edit model marker locations on OpenSim. Did not seem to need it. Others in Config.toml: - removed the "to_openpose" option, which is not needed - added the flag: save_video = 'to_images' # 'to_video' or 'to_images' or ['to_video', 'to_images'] - changed the way frame_range was handled (made me change synchronization in depth, as well as personAssociation and triangulation) - added the flag: time_range_around_maxspeed in synchronization - automatically detect framerate from video, or set to 60 fps if we work from images (or give a value) - frame_range -> time_range - moved height and weight to project (only read for markerAugmentation, and in the future for automatic scaling) - removed reorder_trc from triangulation and Config -> call it for markerAugmentation instead Others: - Provided an installation procedure for OpenSim (for the future) and made continuous installation check its install (a bit harder since it cannot be installed via pip) - scaling from motion instead of static pose (will have to study whether it's as good or not) - added logging to synchronization - Struggled quite a bit with continuous integration * Starting point of integrating RTMPose into Pose2Sim. (#111) * RTM_to_Open Convert format from RTMPose to OpenPose * rtm_intergrated * rtm_integrated * rtm_integrated * rtm_integrated * rtm * Delete build/lib/Pose2Sim directory * rtm * Delete build/lib/Pose2Sim directory * Delete onnxruntime-gpu * device = cpu * add pose folder * Update tests.py * added annotation * fix typo * Should work be still lots of tests to run. Detailed commit coming soon * intermediary commit * last checks before v0.9.0 * Update continuous-integration.yml * Update tests.py * replaced tabs with spaces * unittest issue * unittest typo * deactivated display for CI test of pose detection * Try to make continuous integration work * a * b * c * d * e * f * g * h * i * j * k * l --------- Co-authored-by: HunMinKim <144449115+hunminkim98@users.noreply.github.com>
2024-07-09 22:39:33 +08:00
try:
pose_listdirs_names = next(os.walk(pose_dir))[1]
os.listdir(os.path.join(pose_dir, pose_listdirs_names[0]))[0]
Pose estimation test (#116) Edits from @hunminkim98's awesome work at integrating pose estimation into Pose2Sim with RTMLib. Most of the changes in syntax are not necessarily better, it is mostly for the code to be more consistent with the rest of the library. Thank you again for your fantastic work! General: - Automatically detects whether a valid CUDA install is available. If so, use the GPU with the ONNXRuntime backend. Otherwise, use the CPU with the OpenVINO backend - The tensorflow version used for marker augmentation was incompatible with the cuda torch installation for pose estimation: edited code and models for it to work with the latest tf version. - Added logging information to pose estimation - Readme.md: provided an installation procedure for CUDA (took me a while to find something simple and robust) - Readme.md: added information about PoseEstimation with RTMLib - added poseEstimation to tests.py - created videos for the multi-person case (used to only have json, no video), and reorganized Demo folders. Had to recreate calibration file as well Json files: - the json files only saved one person, I made it save all the detected ones - tracking was not taken into account by rtmlib, which caused issues in synchronization: fixed, waiting for merge - took the save_to_openpose function out from the main function - minified the json files (they take less space when all spaces are removed) Detection results: - Compared the triangulated locations of RTMpose keypoints to the ones of OpenPose to potentially edit model marker locations on OpenSim. Did not seem to need it. Others in Config.toml: - removed the "to_openpose" option, which is not needed - added the flag: save_video = 'to_images' # 'to_video' or 'to_images' or ['to_video', 'to_images'] - changed the way frame_range was handled (made me change synchronization in depth, as well as personAssociation and triangulation) - added the flag: time_range_around_maxspeed in synchronization - automatically detect framerate from video, or set to 60 fps if we work from images (or give a value) - frame_range -> time_range - moved height and weight to project (only read for markerAugmentation, and in the future for automatic scaling) - removed reorder_trc from triangulation and Config -> call it for markerAugmentation instead Others: - Provided an installation procedure for OpenSim (for the future) and made continuous installation check its install (a bit harder since it cannot be installed via pip) - scaling from motion instead of static pose (will have to study whether it's as good or not) - added logging to synchronization - Struggled quite a bit with continuous integration * Starting point of integrating RTMPose into Pose2Sim. (#111) * RTM_to_Open Convert format from RTMPose to OpenPose * rtm_intergrated * rtm_integrated * rtm_integrated * rtm_integrated * rtm * Delete build/lib/Pose2Sim directory * rtm * Delete build/lib/Pose2Sim directory * Delete onnxruntime-gpu * device = cpu * add pose folder * Update tests.py * added annotation * fix typo * Should work be still lots of tests to run. Detailed commit coming soon * intermediary commit * last checks before v0.9.0 * Update continuous-integration.yml * Update tests.py * replaced tabs with spaces * unittest issue * unittest typo * deactivated display for CI test of pose detection * Try to make continuous integration work * a * b * c * d * e * f * g * h * i * j * k * l --------- Co-authored-by: HunMinKim <144449115+hunminkim98@users.noreply.github.com>
2024-07-09 22:39:33 +08:00
except:
raise ValueError(f'No json files found in {pose_dir} subdirectories. Make sure you run Pose2Sim.poseEstimation() first.')
2024-03-19 17:33:07 +08:00
pose_listdirs_names = sort_stringlist_by_last_number(pose_listdirs_names)
json_dirs_names = [k for k in pose_listdirs_names if 'json' in k]
json_dirs = [os.path.join(pose_dir, j_d) for j_d in json_dirs_names] # list of json directories in pose_dir
Pose estimation test (#116) Edits from @hunminkim98's awesome work at integrating pose estimation into Pose2Sim with RTMLib. Most of the changes in syntax are not necessarily better, it is mostly for the code to be more consistent with the rest of the library. Thank you again for your fantastic work! General: - Automatically detects whether a valid CUDA install is available. If so, use the GPU with the ONNXRuntime backend. Otherwise, use the CPU with the OpenVINO backend - The tensorflow version used for marker augmentation was incompatible with the cuda torch installation for pose estimation: edited code and models for it to work with the latest tf version. - Added logging information to pose estimation - Readme.md: provided an installation procedure for CUDA (took me a while to find something simple and robust) - Readme.md: added information about PoseEstimation with RTMLib - added poseEstimation to tests.py - created videos for the multi-person case (used to only have json, no video), and reorganized Demo folders. Had to recreate calibration file as well Json files: - the json files only saved one person, I made it save all the detected ones - tracking was not taken into account by rtmlib, which caused issues in synchronization: fixed, waiting for merge - took the save_to_openpose function out from the main function - minified the json files (they take less space when all spaces are removed) Detection results: - Compared the triangulated locations of RTMpose keypoints to the ones of OpenPose to potentially edit model marker locations on OpenSim. Did not seem to need it. Others in Config.toml: - removed the "to_openpose" option, which is not needed - added the flag: save_video = 'to_images' # 'to_video' or 'to_images' or ['to_video', 'to_images'] - changed the way frame_range was handled (made me change synchronization in depth, as well as personAssociation and triangulation) - added the flag: time_range_around_maxspeed in synchronization - automatically detect framerate from video, or set to 60 fps if we work from images (or give a value) - frame_range -> time_range - moved height and weight to project (only read for markerAugmentation, and in the future for automatic scaling) - removed reorder_trc from triangulation and Config -> call it for markerAugmentation instead Others: - Provided an installation procedure for OpenSim (for the future) and made continuous installation check its install (a bit harder since it cannot be installed via pip) - scaling from motion instead of static pose (will have to study whether it's as good or not) - added logging to synchronization - Struggled quite a bit with continuous integration * Starting point of integrating RTMPose into Pose2Sim. (#111) * RTM_to_Open Convert format from RTMPose to OpenPose * rtm_intergrated * rtm_integrated * rtm_integrated * rtm_integrated * rtm * Delete build/lib/Pose2Sim directory * rtm * Delete build/lib/Pose2Sim directory * Delete onnxruntime-gpu * device = cpu * add pose folder * Update tests.py * added annotation * fix typo * Should work be still lots of tests to run. Detailed commit coming soon * intermediary commit * last checks before v0.9.0 * Update continuous-integration.yml * Update tests.py * replaced tabs with spaces * unittest issue * unittest typo * deactivated display for CI test of pose detection * Try to make continuous integration work * a * b * c * d * e * f * g * h * i * j * k * l --------- Co-authored-by: HunMinKim <144449115+hunminkim98@users.noreply.github.com>
2024-07-09 22:39:33 +08:00
json_files_names = [fnmatch.filter(os.listdir(os.path.join(pose_dir, js_dir)), '*.json') for js_dir in json_dirs_names]
json_files_names = [sort_stringlist_by_last_number(j) for j in json_files_names]
2024-04-12 07:59:32 +08:00
nb_frames_per_cam = [len(fnmatch.filter(os.listdir(os.path.join(json_dir)), '*.json')) for json_dir in json_dirs]
2024-03-16 22:49:40 +08:00
cam_nb = len(json_dirs)
2024-04-12 07:59:32 +08:00
cam_list = list(range(cam_nb))
2024-04-14 00:42:30 +08:00
Pose estimation test (#116) Edits from @hunminkim98's awesome work at integrating pose estimation into Pose2Sim with RTMLib. Most of the changes in syntax are not necessarily better, it is mostly for the code to be more consistent with the rest of the library. Thank you again for your fantastic work! General: - Automatically detects whether a valid CUDA install is available. If so, use the GPU with the ONNXRuntime backend. Otherwise, use the CPU with the OpenVINO backend - The tensorflow version used for marker augmentation was incompatible with the cuda torch installation for pose estimation: edited code and models for it to work with the latest tf version. - Added logging information to pose estimation - Readme.md: provided an installation procedure for CUDA (took me a while to find something simple and robust) - Readme.md: added information about PoseEstimation with RTMLib - added poseEstimation to tests.py - created videos for the multi-person case (used to only have json, no video), and reorganized Demo folders. Had to recreate calibration file as well Json files: - the json files only saved one person, I made it save all the detected ones - tracking was not taken into account by rtmlib, which caused issues in synchronization: fixed, waiting for merge - took the save_to_openpose function out from the main function - minified the json files (they take less space when all spaces are removed) Detection results: - Compared the triangulated locations of RTMpose keypoints to the ones of OpenPose to potentially edit model marker locations on OpenSim. Did not seem to need it. Others in Config.toml: - removed the "to_openpose" option, which is not needed - added the flag: save_video = 'to_images' # 'to_video' or 'to_images' or ['to_video', 'to_images'] - changed the way frame_range was handled (made me change synchronization in depth, as well as personAssociation and triangulation) - added the flag: time_range_around_maxspeed in synchronization - automatically detect framerate from video, or set to 60 fps if we work from images (or give a value) - frame_range -> time_range - moved height and weight to project (only read for markerAugmentation, and in the future for automatic scaling) - removed reorder_trc from triangulation and Config -> call it for markerAugmentation instead Others: - Provided an installation procedure for OpenSim (for the future) and made continuous installation check its install (a bit harder since it cannot be installed via pip) - scaling from motion instead of static pose (will have to study whether it's as good or not) - added logging to synchronization - Struggled quite a bit with continuous integration * Starting point of integrating RTMPose into Pose2Sim. (#111) * RTM_to_Open Convert format from RTMPose to OpenPose * rtm_intergrated * rtm_integrated * rtm_integrated * rtm_integrated * rtm * Delete build/lib/Pose2Sim directory * rtm * Delete build/lib/Pose2Sim directory * Delete onnxruntime-gpu * device = cpu * add pose folder * Update tests.py * added annotation * fix typo * Should work be still lots of tests to run. Detailed commit coming soon * intermediary commit * last checks before v0.9.0 * Update continuous-integration.yml * Update tests.py * replaced tabs with spaces * unittest issue * unittest typo * deactivated display for CI test of pose detection * Try to make continuous integration work * a * b * c * d * e * f * g * h * i * j * k * l --------- Co-authored-by: HunMinKim <144449115+hunminkim98@users.noreply.github.com>
2024-07-09 22:39:33 +08:00
# frame range selection
f_range = [[0, min([len(j) for j in json_files_names])] if frame_range==[] else frame_range][0]
# json_files_names = [[j for j in json_files_cam if int(re.split(r'(\d+)',j)[-2]) in range(*f_range)] for json_files_cam in json_files_names]
# Determine frames to consider for synchronization
if isinstance(approx_time_maxspeed, list): # search around max speed
approx_frame_maxspeed = [int(fps * t) for t in approx_time_maxspeed]
nb_frames_per_cam = [len(fnmatch.filter(os.listdir(os.path.join(json_dir)), '*.json')) for json_dir in json_dirs]
search_around_frames = [[int(a-lag_range) if a-lag_range>0 else 0, int(a+lag_range) if a+lag_range<nb_frames_per_cam[i] else nb_frames_per_cam[i]+f_range[0]] for i,a in enumerate(approx_frame_maxspeed)]
logging.info(f'Synchronization is calculated around the times {approx_time_maxspeed} +/- {time_range_around_maxspeed} s.')
elif approx_time_maxspeed == 'auto': # search on the whole sequence (slower if long sequence)
search_around_frames = [[f_range[0], f_range[0]+nb_frames_per_cam[i]] for i in range(cam_nb)]
logging.info('Synchronization is calculated on the whole sequence. This may take a while.')
2024-04-12 07:59:32 +08:00
else:
Pose estimation test (#116) Edits from @hunminkim98's awesome work at integrating pose estimation into Pose2Sim with RTMLib. Most of the changes in syntax are not necessarily better, it is mostly for the code to be more consistent with the rest of the library. Thank you again for your fantastic work! General: - Automatically detects whether a valid CUDA install is available. If so, use the GPU with the ONNXRuntime backend. Otherwise, use the CPU with the OpenVINO backend - The tensorflow version used for marker augmentation was incompatible with the cuda torch installation for pose estimation: edited code and models for it to work with the latest tf version. - Added logging information to pose estimation - Readme.md: provided an installation procedure for CUDA (took me a while to find something simple and robust) - Readme.md: added information about PoseEstimation with RTMLib - added poseEstimation to tests.py - created videos for the multi-person case (used to only have json, no video), and reorganized Demo folders. Had to recreate calibration file as well Json files: - the json files only saved one person, I made it save all the detected ones - tracking was not taken into account by rtmlib, which caused issues in synchronization: fixed, waiting for merge - took the save_to_openpose function out from the main function - minified the json files (they take less space when all spaces are removed) Detection results: - Compared the triangulated locations of RTMpose keypoints to the ones of OpenPose to potentially edit model marker locations on OpenSim. Did not seem to need it. Others in Config.toml: - removed the "to_openpose" option, which is not needed - added the flag: save_video = 'to_images' # 'to_video' or 'to_images' or ['to_video', 'to_images'] - changed the way frame_range was handled (made me change synchronization in depth, as well as personAssociation and triangulation) - added the flag: time_range_around_maxspeed in synchronization - automatically detect framerate from video, or set to 60 fps if we work from images (or give a value) - frame_range -> time_range - moved height and weight to project (only read for markerAugmentation, and in the future for automatic scaling) - removed reorder_trc from triangulation and Config -> call it for markerAugmentation instead Others: - Provided an installation procedure for OpenSim (for the future) and made continuous installation check its install (a bit harder since it cannot be installed via pip) - scaling from motion instead of static pose (will have to study whether it's as good or not) - added logging to synchronization - Struggled quite a bit with continuous integration * Starting point of integrating RTMPose into Pose2Sim. (#111) * RTM_to_Open Convert format from RTMPose to OpenPose * rtm_intergrated * rtm_integrated * rtm_integrated * rtm_integrated * rtm * Delete build/lib/Pose2Sim directory * rtm * Delete build/lib/Pose2Sim directory * Delete onnxruntime-gpu * device = cpu * add pose folder * Update tests.py * added annotation * fix typo * Should work be still lots of tests to run. Detailed commit coming soon * intermediary commit * last checks before v0.9.0 * Update continuous-integration.yml * Update tests.py * replaced tabs with spaces * unittest issue * unittest typo * deactivated display for CI test of pose detection * Try to make continuous integration work * a * b * c * d * e * f * g * h * i * j * k * l --------- Co-authored-by: HunMinKim <144449115+hunminkim98@users.noreply.github.com>
2024-07-09 22:39:33 +08:00
raise ValueError('approx_time_maxspeed should be a list of floats or "auto"')
if keypoints_to_consider == 'right':
logging.info(f'Keypoints used to compute the best synchronization offset: right side.')
elif keypoints_to_consider == 'left':
logging.info(f'Keypoints used to compute the best synchronization offset: left side.')
elif isinstance(keypoints_to_consider, list):
logging.info(f'Keypoints used to compute the best synchronization offset: {keypoints_to_consider}.')
elif keypoints_to_consider == 'all':
logging.info(f'All keypoints are used to compute the best synchronization offset.')
logging.info(f'These keypoints are filtered with a Butterworth filter (cut-off frequency: {filter_cutoff} Hz, order: {filter_order}).')
logging.info(f'They are removed when their likelihood is below {likelihood_threshold}.\n')
# Extract, interpolate, and filter keypoint coordinates
logging.info('Synchronizing...')
df_coords = []
b, a = signal.butter(filter_order/2, filter_cutoff/(fps/2), 'low', analog = False)
json_files_names_range = [[j for j in json_files_cam if int(re.split(r'(\d+)',j)[-2]) in range(*frames_cam)] for (json_files_cam, frames_cam) in zip(json_files_names,search_around_frames)]
json_files_range = [[os.path.join(pose_dir, j_dir, j_file) for j_file in json_files_names_range[j]] for j, j_dir in enumerate(json_dirs_names)]
if np.array([j==[] for j in json_files_names_range]).any():
raise ValueError(f'No json files found within the specified frame range ({frame_range}) at the times {approx_time_maxspeed} +/- {time_range_around_maxspeed} s.')
for i in range(cam_nb):
df_coords.append(convert_json2pandas(json_files_range[i], likelihood_threshold=likelihood_threshold))
df_coords[i] = drop_col(df_coords[i],3) # drop likelihood
if keypoints_to_consider == 'right':
kpt_indices = [i for i,k in zip(keypoints_ids,keypoints_names) if k.startswith('R') or k.startswith('right')]
kpt_indices = np.sort(np.concatenate([np.array(kpt_indices)*2, np.array(kpt_indices)*2+1]))
df_coords[i] = df_coords[i][kpt_indices]
elif keypoints_to_consider == 'left':
kpt_indices = [i for i,k in zip(keypoints_ids,keypoints_names) if k.startswith('L') or k.startswith('left')]
kpt_indices = np.sort(np.concatenate([np.array(kpt_indices)*2, np.array(kpt_indices)*2+1]))
df_coords[i] = df_coords[i][kpt_indices]
elif isinstance(keypoints_to_consider, list):
kpt_indices = [i for i,k in zip(keypoints_ids,keypoints_names) if k in keypoints_to_consider]
kpt_indices = np.sort(np.concatenate([np.array(kpt_indices)*2, np.array(kpt_indices)*2+1]))
df_coords[i] = df_coords[i][kpt_indices]
elif keypoints_to_consider == 'all':
pass
2024-04-12 07:59:32 +08:00
else:
Pose estimation test (#116) Edits from @hunminkim98's awesome work at integrating pose estimation into Pose2Sim with RTMLib. Most of the changes in syntax are not necessarily better, it is mostly for the code to be more consistent with the rest of the library. Thank you again for your fantastic work! General: - Automatically detects whether a valid CUDA install is available. If so, use the GPU with the ONNXRuntime backend. Otherwise, use the CPU with the OpenVINO backend - The tensorflow version used for marker augmentation was incompatible with the cuda torch installation for pose estimation: edited code and models for it to work with the latest tf version. - Added logging information to pose estimation - Readme.md: provided an installation procedure for CUDA (took me a while to find something simple and robust) - Readme.md: added information about PoseEstimation with RTMLib - added poseEstimation to tests.py - created videos for the multi-person case (used to only have json, no video), and reorganized Demo folders. Had to recreate calibration file as well Json files: - the json files only saved one person, I made it save all the detected ones - tracking was not taken into account by rtmlib, which caused issues in synchronization: fixed, waiting for merge - took the save_to_openpose function out from the main function - minified the json files (they take less space when all spaces are removed) Detection results: - Compared the triangulated locations of RTMpose keypoints to the ones of OpenPose to potentially edit model marker locations on OpenSim. Did not seem to need it. Others in Config.toml: - removed the "to_openpose" option, which is not needed - added the flag: save_video = 'to_images' # 'to_video' or 'to_images' or ['to_video', 'to_images'] - changed the way frame_range was handled (made me change synchronization in depth, as well as personAssociation and triangulation) - added the flag: time_range_around_maxspeed in synchronization - automatically detect framerate from video, or set to 60 fps if we work from images (or give a value) - frame_range -> time_range - moved height and weight to project (only read for markerAugmentation, and in the future for automatic scaling) - removed reorder_trc from triangulation and Config -> call it for markerAugmentation instead Others: - Provided an installation procedure for OpenSim (for the future) and made continuous installation check its install (a bit harder since it cannot be installed via pip) - scaling from motion instead of static pose (will have to study whether it's as good or not) - added logging to synchronization - Struggled quite a bit with continuous integration * Starting point of integrating RTMPose into Pose2Sim. (#111) * RTM_to_Open Convert format from RTMPose to OpenPose * rtm_intergrated * rtm_integrated * rtm_integrated * rtm_integrated * rtm * Delete build/lib/Pose2Sim directory * rtm * Delete build/lib/Pose2Sim directory * Delete onnxruntime-gpu * device = cpu * add pose folder * Update tests.py * added annotation * fix typo * Should work be still lots of tests to run. Detailed commit coming soon * intermediary commit * last checks before v0.9.0 * Update continuous-integration.yml * Update tests.py * replaced tabs with spaces * unittest issue * unittest typo * deactivated display for CI test of pose detection * Try to make continuous integration work * a * b * c * d * e * f * g * h * i * j * k * l --------- Co-authored-by: HunMinKim <144449115+hunminkim98@users.noreply.github.com>
2024-07-09 22:39:33 +08:00
raise ValueError('keypoints_to_consider should be "all", "right", "left", or a list of keypoint names.\n\
If you specified keypoints, make sure that they exist in your pose_model.')
df_coords[i] = df_coords[i].apply(interpolate_zeros_nans, axis=0, args = ['linear'])
df_coords[i] = df_coords[i].bfill().ffill()
df_coords[i] = pd.DataFrame(signal.filtfilt(b, a, df_coords[i], axis=0))
# Compute sum of speeds
df_speed = []
sum_speeds = []
for i in range(cam_nb):
df_speed.append(vert_speed(df_coords[i]))
sum_speeds.append(abs(df_speed[i]).sum(axis=1))
# nb_coord = df_speed[i].shape[1]
# sum_speeds[i][ sum_speeds[i]>vmax*nb_coord ] = 0
# # Replace 0 by random values, otherwise 0 padding may lead to unreliable correlations
# sum_speeds[i].loc[sum_speeds[i] < 1] = sum_speeds[i].loc[sum_speeds[i] < 1].apply(lambda x: np.random.normal(0,1))
sum_speeds[i] = pd.DataFrame(signal.filtfilt(b, a, sum_speeds[i], axis=0)).squeeze()
# Compute offset for best synchronization:
# Highest correlation of sum of absolute speeds for each cam compared to reference cam
ref_cam_id = nb_frames_per_cam.index(min(nb_frames_per_cam)) # ref cam: least amount of frames
ref_frame_nb = len(df_coords[ref_cam_id])
lag_range = int(ref_frame_nb/2)
cam_list.pop(ref_cam_id)
offset = []
for cam_id in cam_list:
offset_cam_section, max_corr_cam = time_lagged_cross_corr(sum_speeds[ref_cam_id], sum_speeds[cam_id], lag_range, show=display_sync_plots, ref_cam_id=ref_cam_id, cam_id=cam_id)
offset_cam = offset_cam_section - (search_around_frames[ref_cam_id][0] - search_around_frames[cam_id][0])
if isinstance(approx_time_maxspeed, list):
logging.info(f'--> Camera {ref_cam_id} and {cam_id}: {offset_cam} frames offset ({offset_cam_section} on the selected section), correlation {round(max_corr_cam, 2)}.')
else:
logging.info(f'--> Camera {ref_cam_id} and {cam_id}: {offset_cam} frames offset, correlation {round(max_corr_cam, 2)}.')
offset.append(offset_cam)
offset.insert(ref_cam_id, 0)
# rename json files according to the offset and copy them to pose-sync
sync_dir = os.path.abspath(os.path.join(pose_dir, '..', 'pose-sync'))
os.makedirs(sync_dir, exist_ok=True)
for d, j_dir in enumerate(json_dirs):
os.makedirs(os.path.join(sync_dir, os.path.basename(j_dir)), exist_ok=True)
for j_file in json_files_names[d]:
j_split = re.split(r'(\d+)',j_file)
j_split[-2] = f'{int(j_split[-2])-offset[d]:06d}'
if int(j_split[-2]) > 0:
json_offset_name = ''.join(j_split)
shutil.copy(os.path.join(pose_dir, os.path.basename(j_dir), j_file), os.path.join(sync_dir, os.path.basename(j_dir), json_offset_name))
logging.info(f'Synchronized json files saved in {sync_dir}.')