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Introduction

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XRNeRF is an open-source PyTorch-based codebase for Neural Radiance Field (NeRF). It is a part of the OpenXRLab project.

https://user-images.githubusercontent.com/24294293/187131048-5977c929-e136-4328-ad1f-7da8e7a566ff.mp4

This page provides basic tutorials about the usage of XRNeRF. For installation instructions, please see installation.md.

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Benchmark

More details can be found in benchmark.md.

Supported scene-NeRF methods:

<details open> <summary>(click to collapse)</summary>

Supported human-NeRF methods:

<details open> <summary>(click to collapse)</summary>

Wanna see more methods supported? Post method you want see in XRNeRF on our wishlist.

</details> </details>

Datasets

It is recommended to symlink the dataset root to $PROJECT/data. If your folder structure is different, you may need to change the corresponding paths in config files.

xrnerf
├── xrnerf
├── docs
├── configs
├── test
├── extensions
├── data
│   ├── nerf_llff_data
│   ├── nerf_synthetic
│   ├── multiscale
│   ├── multiscale_google
│   ├── ...

For more information on data preparation, please see dataset_preparation.md

Installation

We provide detailed installation tutorial for XRNeRF, users can install from scratch or use provided dockerfile.

It is recommended to start by creating a docker image:

docker build -f ./docker/Dockerfile --rm -t xrnerf .

For more information, please follow our installation tutorial.

Build a Model

Basic Concepts

In XRNeRF, model components are basically categorized as 4 types.

Following some basic pipelines (e.g., NerfNetwork), the model structure can be customized through config files with no pains.

Write a new network

To write a new nerf network, you need to inherit from BaseNerfNetwork, which defines the following abstract methods.

NerfNetwork is a good example which show how to do that.

To be specific, if we want to implement some new components, there are several things to do.

  1. create a new file in xrnerf/models/networks/my_networks.py.

    from ..builder import NETWORKS
    from .nerf import NerfNetwork
    
    @NETWORKS.register_module()
    class MyNerfNetwork(NerfNetwork):
    
        def __init__(self, cfg, mlp=None, mlp_fine=None, render=None):
            super().__init__(cfg, mlp, mlp_fine, render)
    
        def forward(self, data):
            ....
    
        def train_step(self, data, optimizer, **kwargs):
            ....
    
        def val_step(self, data, optimizer=None, **kwargs):
            ....
    
  2. Import the module in xrnerf/models/networks/__init__.py

    from .my_networks import MyNerfNetwork
    
  3. modify the config file from

    model = dict(
        type='NerfNetwork',
        ....
    

    to

    model = dict(
        type='MyNerfNetwork',
        ....
    

To implement some new components for embedder/mlp/render, procedure is similar to above.

Train a Model

Iteration Controls

XRNeRF use mmcv.runner.IterBasedRunner to control training, and mmcv.runner.EpochBasedRunner to for test mode.

In training mode, the max_iters in config file decide how many iters. In test mode, max_iters is forced to change to 1, which represents only 1 epoch to test.

Train

python run_nerf.py --config configs/nerf/nerf_blender_base01.py --dataname lego

Arguments are:

Test

We have provided model iter_200000.pth for test, download from here

python run_nerf.py --config configs/nerf/nerf_blender_base01.py --dataname lego --test_only --load_from iter_200000.pth

Arguments are:

Tutorials

Currently, we provide some tutorials for users to

Other Documents

Except for that,The document also includes the following

Citation

If you find this project useful in your research, please consider cite:

@misc{xrnerf,
    title={OpenXRLab Neural Radiance Field Toolbox and Benchmark},
    author={XRNeRF Contributors},
    howpublished = {\url{https://github.com/openxrlab/xrnerf}},
    year={2022}
}

License

The license of our codebase is Apache-2.0. Note that this license only applies to code in our library, the dependencies of which are separate and individually licensed. We would like to pay tribute to open-source implementations to which we rely on. Please be aware that using the content of dependencies may affect the license of our codebase. Some supported methods may carry additional licenses.

Contributing

We appreciate all contributions to improve XRNeRF. Please refer to CONTRIBUTING.md for the contributing guideline.

Acknowledgement

XRNeRF is an open source project that is contributed by researchers and engineers from both the academia and the industry. We appreciate all the contributors who implement their methods or add new features, as well as users who give valuable feedbacks. We wish that the framework and benchmark could serve the growing research community by providing a flexible framework to reimplement existing methods and develop their own new models.

Projects in OpenXRLab