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LPDC-Net
This repository contains the code for the project LPDC-Net - Learning Parallel Dense Correspondence from Spatio-Temporal Descriptors for Efficient and Robust 4D Reconstruction
You can find detailed usage instructions for training your own models and using the pretrained models.
Installation
First you have to make sure that you have all dependencies in place. You can create and activate an anaconda environment called lpdc
using
conda env create -f environment.yaml
conda activate lpdc
Next, compile the extension modules. You can do this via
python setup.py build_ext --inplace
Demo
You can test our code on the provided input point cloud sequences in the demo/
folder. To this end, simple run
python generate.py configs/demo.yaml
This script should create a folder out/demo/
where the output is stored.
Dataset
Point-based Data
To train a new model from scratch, you have to download the full dataset. You can download the pre-processed data (~42 GB) using
bash scripts/download_data.sh
The script will download the point-based point-based data for the Dynamic FAUST (D-FAUST) dataset to the data/
folder.
Mesh Data
Please follow the instructions on D-FAUST homepage to download the "female and male registrations" as well as "scripts to load / parse the data".
Next, follow their instructions in the scripts/README.txt
file to extract the obj-files of the sequences. Once completed, you should have a folder with the following structure:
your_dfaust_folder/
| 50002_chicken_wings/
| 00000.obj
| 00001.obj
| ...
| 000215.obj
| 50002_hips/
| 00000.obj
| ...
| ...
| 50027_shake_shoulders/
| 00000.obj
| ...
You can now run
bash scripts/migrate_dfaust.sh path/to/your_dfaust_folder
to copy the mesh data to the dataset folder.
The argument has to be the folder to which you have extracted the mesh data (the your_dfaust_folder
from the directory tree above).
Incomplete Point Cloud Sequence
You can now run
bash scripts/build_dataset_incomplete.sh
to create incomplete point cloud sequences for the experiment of 4D Shape Completion.
Usage
When you have installed all dependencies and obtained the preprocessed data, you are ready to run our pre-trained models and train new models from scratch.
Generation
<div style="text-align: center"> <img src="animations/input_full.gif" width="256"/> <img src="animations/output_full.gif" width="256"/> </div>To start the normal mesh generation process using a trained model, use
python generate.py configs/CONFIG.yaml
where you replace CONFIG.yaml
with the name of the configuration file you want to use.
The easiest way is to use a pretrained model. You can do this by using one of the config files
configs/noflow/lpdc_even_pretrained.yaml
configs/noflow/lpdc_uneven_pretrained.yaml
configs/noflow/lpdc_completion_pretrained.yaml
Our script will automatically download the model checkpoints and run the generation.
You can find the outputs in the out/pointcloud
folder.
Please note that the config files *_pretrained.yaml are only for generation, not for training new models: when these configs are used for training, the model will be trained from scratch, but during inference our code will still use the pretrained model.
Evaluation
You can evaluate the generated output of a model on the test set using
python eval.py configs/CONFIG.yaml
The evaluation results will be saved to pickle and csv files.
Training
Finally, to train a new network from scratch, run
python train.py configs/CONFIG.yaml
You can monitor the training process on http://localhost:6006 using tensorboard:
cd OUTPUT_DIR
tensorboard --logdir ./logs --port 6006
where you replace OUTPUT_DIR
with the respective output directory. For available training options, please have a look at config/default.yaml
.
Acknowledgements
Most of the code is borrowed from Occupancy Flow. We thank Michael Niemeyer for his great works and repos.
Citation
If you find our code or paper useful, please consider citing
@inproceedings{tang2021learning,
title={Learning Parallel Dense Correspondence from Spatio-Temporal Descriptors for Efficient and Robust 4D Reconstruction},
author={Tang, Jiapeng and Xu, Dan and Jia, Kui and Zhang, Lei},
booktitle={Proceedings of the IEEE/CVF Conference on Computer Vision and Pattern Recognition},
pages={6022--6031},
year={2021}
}