This is a pix2pix demo that learns from pose and translates this into a human. A webcam-enabled application is also provided that translates your pose to the trained pose.
# Clone this repo
git clone git@github.com:GordonRen/pose2pose.git
# Create the conda environment from file
conda env create -f environment.yml
https://github.com/FORTH-ModelBasedTracker/PyOpenPose
python generate_train_data.py --file Panama.mp4
Input:
file
is the name of the video file from which you want to create the data set.
Output:
- Two folders
original
andlandmarks
will be created.
If you want to download my dataset, here is also the video file that I used and the generated training dataset (1427 images already split into training and validation).
# Clone the repo from Christopher Hesse's pix2pix TensorFlow implementation
git clone https://github.com/affinelayer/pix2pix-tensorflow.git
# Move the original and landmarks folder into the pix2pix-tensorflow folder
mv pose2pose/landmarks pose2pose/original pix2pix-tensorflow/photos_pose
# Go into the pix2pix-tensorflow folder
cd pix2pix-tensorflow/
# Reset to april version
git reset --hard d6f8e4ce00a1fd7a96a72ed17366bfcb207882c7
# Resize original images
python tools/process.py \
--input_dir photos_pose/original \
--operation resize \
--output_dir photos_pose/original_resized
# Resize landmark images
python tools/process.py \
--input_dir photos_pose/landmarks \
--operation resize \
--output_dir photos_pose/landmarks_resized
# Combine both resized original and landmark images
python tools/process.py \
--input_dir photos_pose/landmarks_resized \
--b_dir photos_pose/original_resized \
--operation combine \
--output_dir photos_pose/combined
# Split into train/val set
python tools/split.py \
--dir photos_pose/combined
# Train the model on the data
python pix2pix.py \
--mode train \
--output_dir pose2pose-model \
--max_epochs 1000 \
--input_dir photos_pose/combined/train \
--which_direction AtoB
For more information around training, have a look at Christopher Hesse's pix2pix-tensorflow implementation.
-
First, we need to reduce the trained model so that we can use an image tensor as input:
python reduce_model.py --model-input pose2pose-model --model-output pose2pose-reduced-model
Input:
model-input
is the model folder to be imported.model-output
is the model (reduced) folder to be exported.
Output:
- It returns a reduced model with less weights file size than the original model.
-
Second, we freeze the reduced model to a single file.
python freeze_model.py --model-folder pose2pose-reduced-model
Input:
model-folder
is the model folder of the reduced model.
Output:
- It returns a frozen model file
frozen_model.pb
in the model folder.
I have uploaded a pre-trained frozen model here. This model is trained on 1427 images with epoch 1000.
python pose2pose.py --source 0 --show 2 --tf-model pose2pose-reduced-model/frozen_model.pb
Input:
source
is the device index of the camera (default=0).show
is an option to display: 0 shows the normal input; 1 shows the pose; 2 shows the normal input and pose (default=2).tf-model
is the frozen model file.
Example:
Kudos to Christopher Hesse for his amazing pix2pix TensorFlow implementation and Gene Kogan for his inspirational workshop.
Inspired by Dat Tran.
See LICENSE for details.