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From NeRFs to Gaussian Splats, and Back

This is the implementation of From NeRFs to Gaussian Splats, and Back; An efficient procedure to convert back and forth between NeRF and GS, and thereby get the best of both approaches. New dataset in the paper can be downloaded from this google drive link. This is now a part of nerfstudio methods and you can use it directly from nerfstudio!

Giannini_demo_compressed.mp4

Installation

This repository follows the nerfstudio method template

0. Install Nerfstudio dependencies

Please follow the installation guide to create an environment and install dependencies including PyTorch and tiny-cuda-nn.

As mentioned in this issue, the code currently works with only the older version of nerfstudio and gsplat. Please install nerfstudio and gsplat following:

pip uninstall gsplat nerfstudio -y

pip install gsplat==0.1.3
pip install git+https://github.com/nerfstudio-project/[email protected]

1. Install the repository

Clone and navigate into this repository. Run the following commands:

pip install -e nerfsh

and

pip install -e nerfgs.

Finally, run ns-install-cli.

2. Check installation

Run ns-train --help. You should be able to find two methods, nerfsh and nerfgs, in the list of methods.

Downloading data

You could download the Giannini-Hall and aspen datasets from this google drive link. Our new dataset (Wissahickon and Locust-Walk) can be downloaded from this google drive link.

NeRFGS: NeRFs to Gaussian Splats

Training NeRF-SH

Run the following command for training. Replace DATA_PATH with the data directory location.

ns-train nerfsh --data DATA_PATH --pipeline.model.camera-optimizer.mode off

To train on Wissahickon or Locust-Walk dataset, you need to add nerfstudio-data --eval-mode filename to properly split training and validation data, i.e.,

ns-train nerfsh --data DATA_PATH --pipeline.model.camera-optimizer.mode off nerfstudio-data --eval-mode filename

NeRFGS: Converting NeRF-SH to Guassian splats

Replace CONFIG_LOCATION with the location of config file saved after training.

ns-export-nerfsh --load-config CONFIG_LOCATION --output-dir exports/nerfgs/ --num-points 2000000 --remove-outliers True --normal-method open3d --use_bounding_box False

Visualize converted Gaussian splats

Replace DATA_PATH with the data directory location. You also need to add nerfstudio-data --eval-mode filename if train on Wissahickon or Locust-Walk.

ns-train nerfgs --data DATA_PATH --max-num-iterations 1 --pipeline.model.ply-file-path exports/nerfgs/nerfgs.ply

Fintuned NeRFGS

We reduces the learning rate for finetuning. You also need to add nerfstudio-data --eval-mode filename if train on Wissahickon or Locust-Walk.

ns-train nerfgs --data DATA_PATH --pipeline.model.ply-file-path exports/nerfgs/nerfgs.ply --max-num-iterations 5000 --pipeline.model.sh-degree-interval 1 --pipeline.model.warmup-length 100 --optimizers.xyz.optimizer.lr 0.00001 --optimizers.xyz.scheduler.lr-pre-warmup 0.0000001 --optimizers.xyz.scheduler.lr-final 0.0000001 --optimizers.features-dc.optimizer.lr 0.01 --optimizers.features-rest.optimizer.lr 0.001 --optimizers.opacity.optimizer.lr 0.05 --optimizers.scaling.optimizer.lr 0.01 --optimizers.rotation.optimizer.lr 0.0000000001 --optimizers.camera-opt.optimizer.lr 0.0000000001 --optimizers.camera-opt.scheduler.lr-pre-warmup 0.0000000001 --optimizers.camera-opt.scheduler.lr-final 0.0000000001

GSNeRF: Gaussian Splats to NeRFs

Scene modification

To remove a bounding box of Gaussians in nerfgs, we add the following argument in the ns-train call:

ns-train nerfgs --data DATA_PATH --max-num-iterations 1 --pipeline.model.ply-file-path exports/nerfgs/nerfgs.ply --pipeline.model.bottom_remove_box_corner "(MIN_X, MIN_Y, MIN_Z)" --pipeline.model.top_remove_box_corner "(MAX_X, MAX_Y, MAX_Z)"

These arguments create a 3D box spanning from the minimum x, y, z values to the maximum x, y, z value and removes Gaussians with means located inside the box.

Rendering new training images

In the new dataset, training images are rendered from splats. Replace CONFIG_LOCATION with the location of config file saved after training.

ns-nerfgs-render --load-config CONFIG_LOCATION --render-output-path exports/splatting_data --export-nerf-gs-data

GSNeRF: Training on new training images

ns-train nerfsh --data exports/splatting_data --pipeline.model.camera-optimizer.mode off nerfstudio-data --eval-mode filename

Extending the method

The conversion from NeRF to GS has inefficiency as mentioned at the discussion section of the paper. We welcome your efforts to reduce the inefficiency! The code for conversion is mainly in nerfsh/nerfsh/nerfsh_exporter.py.

Bibtex

@misc{he2024nerfs,
      title={From NeRFs to Gaussian Splats, and Back}, 
      author={Siming He and Zach Osman and Pratik Chaudhari},
      year={2024},
      eprint={2405.09717},
      archivePrefix={arXiv},
      primaryClass={cs.CV}
}

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