[CVPR 2023] StyleRF: Zero-shot 3D Style Transfer of Neural Radiance Fields

Project page | Paper

This repository contains a pytorch implementation for the paper: StyleRF: Zero-shot 3D Style Transfer of Neural Radiance Fields. StyleRF is an innovative 3D style transfer technique that achieves superior 3D stylization quality with precise geometry reconstruction and it can generalize to various new styles in a zero-shot manner.

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Installation

Tested on Ubuntu 20.04 + Pytorch 1.12.1

Install environment:

conda create -n StyleRF python=3.9
conda activate StyleRF
pip install torch torchvision
pip install tqdm scikit-image opencv-python configargparse lpips imageio-ffmpeg kornia lpips tensorboard

Datasets

Please put the datasets in ./data. You can put the datasets elsewhere if you modify the corresponding paths in the configs.

3D scene datasets

• nerf_synthetic
• llff

Style image dataset

• WikiArt

Quick Start

We provide some trained checkpoints in: StyleRF checkpoints

Then modify the following attributes in scripts/test_style.sh:

• --config: choose configs/llff_style.txt or configs/nerf_synthetic_style.txt according to which type of dataset is being used
• --datadir: dataset's path
• --ckpt: checkpoint's path
• --style_img: reference style image's path

To generate stylized novel views:

bash scripts/test_style.sh [GPU ID]

The rendered stylized images can then be found in the directory under the checkpoint's path.

Training

Current settings in configs are tested on one NVIDIA RTX A5000 Graphics Card with 24G memory. To reduce memory consumption, you can set batch_size, chunk_size or patch_size to a smaller number.

We follow the following 3 steps of training:

1. Train original TensoRF

This step is for reconstructing the density field, which contains more precise geometry details compared to mesh-based methods. You can skip this step by directly downloading pre-trained checkpoints provided by TensoRF checkpoints.

The configs are stored in configs/llff.txt and configs/nerf_synthetic.txt. For the details of the settings, please also refer to TensoRF. The checkpoints are stored in ./log by default.

You can train the original TensoRF by:

bash script/train.sh [GPU ID]

2. Feature grid training stage

This step is for reconstructing the 3D gird containing the VGG features.

The configs are stored in configs/llff_feature.txt and configs/nerf_synthetic_feature.txt, in which ckpt specifies the checkpoints trained in the first step. The checkpoints are stored in ./log_feature by default.

Then run:

bash script/train_feature.sh [GPU ID]

3. Stylization training stage

This step is for training the style transfer modules.

The configs are stored in configs/llff_style.txt and configs/nerf_synthetic_style.txt, in which ckpt specifies the checkpoints trained in the second step. The checkpoints are stored in ./log_style by default.

Then run:

bash script/train_style.sh [GPU ID]

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Training on 360 Unbounded Scenes

The code for training StyleRF on the Tanks&Temples dataset is available on the 360 branch. To access it, run git checkout 360.

Acknowledgments

This repo is heavily based on the TensoRF. Thank them for sharing their amazing work!

Citation

If you find our code or paper helps, please consider citing:

@inproceedings{liu2023stylerf,
  title={StyleRF: Zero-shot 3D Style Transfer of Neural Radiance Fields},
  author={Liu, Kunhao and Zhan, Fangneng and Chen, Yiwen and Zhang, Jiahui and Yu, Yingchen and El Saddik, Abdulmotaleb and Lu, Shijian and Xing, Eric P},
  booktitle={Proceedings of the IEEE/CVF Conference on Computer Vision and Pattern Recognition},
  pages={8338--8348},
  year={2023}
}