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[3DV'21] CAMPARI: Camera-Aware Decomposed Generative Neural Radiance Fields

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CAMPARI: Camera-Aware Decomposed Generative Neural Radiance Fields

If you find our code or paper useful, please cite as

@inproceedings{CAMPARINiemeyer2021,
    author = {Niemeyer, Michael and Geiger, Andreas},
    title = {CAMPARI: Camera-Aware Decomposed Generative Neural Radiance Fields},
    booktitle = {International Conference on 3D Vision (3DV)},
    year = {2021}
}

TL; DR - Quick Start

Faces

First you have to make sure that you have all dependencies in place. The simplest way to do so, is to use anaconda.

You can create an anaconda environment called campari using

conda env create -f environment.yml
conda activate campari

You can now test our code on the provided pre-trained models. For example, for creating short video clips, run simply run

python eval_video.py configs/celeba_pretrained.yaml

or

python eval_figures.py configs/celeba_pretrained.yaml

for creating respective figures.

This script should create a model output folder out/celeba_pretrained. The animations are then saved to the respective subfolders.

Usage

Datasets and Stats Files

To train a model from scratch, you have to download the respective dataset.

For this, please run

bash scripts/download_dataset.sh

and following the instructions. This script should download and unpack the data automatically into the data/ folder.

Note: For FID evaluation or creating figures containing the GT camera distributions, you need to download the "stats files" (select "4 - Camera stats files" for this).

Controllable Image Synthesis

To render short clips or figures from a trained model, run

python eval_video.py CONFIG.yaml

or

python eval_figures.py CONFIG.yaml

where you replace CONFIG.yaml with the correct config file. The easiest way is to use a pre-trained model. You can do this by using one of the config files which are indicated with *_pretrained.yaml.

For example, for our model trained on celebA, run

python eval_video.py configs/celeba_pretrained.yaml

Our script will automatically download the model checkpoints and render images. You can find the outputs in the out/*_pretrained folders.

Please note that the config files *_pretrained.yaml are only for evaluation or rendering, 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 pre-trained model.

FID Evaluation

For evaluation of the models, we provide the script eval_fid.py. Make sure to have downloaded the stats files (see Usage - Datasets and Stats Files). You can run it using

python eval_fid.py CONFIG.yaml

The script generates 20000 images and calculates the FID score.

Training

Finally, to train a new network from scratch, run

python train.py CONFIG.yaml

where you replace CONFIG.yaml with the name of the configuration file you want to use.

You can monitor on http://localhost:6006 the training process using tensorboard:

cd OUTPUT_DIR
tensorboard --logdir ./logs

where you replace OUTPUT_DIR with the respective output directory. For available training options, please take a look at configs/default.yaml.

Futher Information

More Work on Coordinate-based Neural Representations

If you like the CAMPARI project, please check out related works on neural representions from our group:

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