Neural Unsigned Distance Fields for Implicit Function Learning
Julian Chibane, Aymen Mir, Gerard Pons-Moll
Paper - Supplementaty - Project Website - Arxiv - Published in NeurIPS 2020.
If you find our project useful, please cite the following.
@inproceedings{chibane2020ndf,
title = {Neural Unsigned Distance Fields for Implicit Function Learning},
author = {Chibane, Julian and Mir, Aymen and Pons-Moll, Gerard},
booktitle = {Advances in Neural Information Processing Systems ({NeurIPS})},
month = {December},
year = {2020},
}
A linux system with cuda 10 is required for the project.
Please clone the repository and navigate into it in your terminal, its location is assumed for all subsequent commands.
The NDF_env.yml file contains all necessary python dependencies for the project.
To conveniently install them automatically with anaconda you can use:
conda env create -f NDF_env.yml
conda activate NDF
To replicate our experiments, please download the corresponding raw ShapeNet data or the closed (watertight) data preprocessed by the authors of DISN [Xu et. al. NeurIPS'19] from here. Then use our data preparation code (see below).
Alternatively, to quickly start, you can download the readily prepared data for raw, (not closed) ShapeNet cars:
10.000 input points are given to the network as input to infer the detailed, continuous surface.
Please download the needed data from here,
and unzip it into shapenet/data - unzipped files require 150 GB free space.
Next, you can start generation of instances from the test set via
python generate.py --config configs/shapenet_cars_pretrained.txt
Note: Results are generated in the coordinate system of pytorch's grid_sample function (also see here).
First, create a configuration file in folder configs/, use configs/shapenet_cars.txt as reference and see
configs/config_loader.py for detailed explanation of all configuration options.
Next, prepare the data for NDF using
python dataprocessing/preprocess.py --config configs/shapenet_cars.txt
and generate a random test/training/validation split of the data using
python dataprocessing/create_split.py --config configs/shapenet_cars.txt
but replacing configs/shapenet_cars.txt in the commands with the desired configuration.
Note: The preprocessing with
dataprocessing/preprocess.pycan be time intensive. In case multiple compute machines are available, the script can be run in parralell on those machines by splitting the overall files to preprocess into chuncks. For this, use:
python dataprocessing/preprocess.py --num_chunks X --current_chunk Y
where X is the desired number of chunks (e.g. the number of availiable machines) and Y is the chunk to be processed with execution of this command. Y needs to be an integer between 0 to X-1, including O and X-1. In case you have SLURM available you can adaptslurm_scripts/run_preprocessing.shand use it viasbatch slurm_scripts/run_preprocessing.sh
To train NDF use
python train.py --config configs/shapenet_cars.txt
In the experiments/ folder you can find an experiment folder containing the model checkpoints, the checkpoint of validation minimum, and a folder containing a tensorboard summary, which can be started at with
tensorboard --logdir experiments/EXP_NAME/summary/ --host 0.0.0.0
To generate results for instances of the test set, please use
python generate.py --config configs/shapenet_cars.txt
Again, replacing configs/shapenet_cars.txt in the above commands with the desired configuration and EXP_NAME with
the experiment name defined in the configuration.
For questions and comments please contact Julian Chibane via mail.
Copyright (c) 2020 Julian Chibane, Max-Planck-Gesellschaft
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