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[CVPR'23] Co-SLAM: Joint Coordinate and Sparse Parametric Encodings for Neural Real-Time SLAM

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Co-SLAM: Joint Coordinate and Sparse Parametric Encodings for Neural Real-Time SLAM

Co-SLAM: Joint Coordinate and Sparse Parametric Encodings for Neural Real-Time SLAM
Hengyi Wang, Jingwen Wang, Lourdes Agapito
CVPR 2023

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This repository contains the code for the paper Co-SLAM: Joint Coordinate and Sparse Parametric Encodings for Neural Real-Time SLAM, a neural SLAM method that perform real-time camera tracking and dense reconstruction based on a joint encoding.

Update

  • Code for Co-SLAM [2023-5-12]
  • Code for offline RGB-D reconstruction click here. [2023-5-12]
  • Code for evaluation strategy, performance analysis click here. [2023-5-18]
  • Tutorials on params & creating sequences using iPhone/iPad Pro click here. [2023-5-26]
  • Tutorials on creating sequences using RealSense

Installation

Please follow the instructions below to install the repo and dependencies.

git clone https://github.com/HengyiWang/Co-SLAM.git
cd Co-SLAM

Install the environment

# Create conda environment
conda create -n coslam python=3.7
conda activate coslam

# Install the pytorch first (Please check the cuda version)
pip install torch==1.10.1+cu113 torchvision==0.11.2+cu113 torchaudio==0.10.1 -f https://download.pytorch.org/whl/cu113/torch_stable.html

# Install all the dependencies via pip (Note here pytorch3d and tinycudann requires ~10min to build)
pip install -r requirements.txt

# Build extension (marching cubes from neuralRGBD)
cd external/NumpyMarchingCubes
python setup.py install

For tinycudann, if you cannot access network when you use GPUs, you can also try build from source as below:

# Build tinycudann 
git clone --recursive https://github.com/nvlabs/tiny-cuda-nn

# Try this version if you cannot use the latest version of tinycudann
#git reset --hard 91ee479d275d322a65726435040fc20b56b9c991
cd tiny-cuda-nn/bindings/torch
python setup.py install

Dataset

Replica

Download the sequences of the Replica Dataset generated by the authors of iMAP into ./data/Replica folder.

bash scripts/download_replica.sh # Released by authors of NICE-SLAM

ScanNet

Please follow the procedure on ScanNet website, and extract color & depth frames from the .sens file using the code.

Synthetic RGB-D dataset

Download the sequences of the synethetic RGB-D dataset generated by the authors of neuralRGBD into ./data/neural_rgbd_data folder. We exclude the scenes with NaN poses generated by BundleFusion.

bash scripts/download_rgbd.sh 

TUM RGB-D

Download 3 sequences of TUM RGB-D dataset into ./data/TUM folder.

bash scripts/download_tum.sh 

Run

You can run Co-SLAM using the code below:

python coslam.py --config './configs/{Dataset}/{scene}.yaml 

You can run Co-SLAM with multi-processing using the code below:

python coslam_mp.py --config './configs/{Dataset}/{scene}.yaml 

Evaluation

We employ a slightly different evaluation strategy to measure the quality of the reconstruction, you can find out the code here. Note if you want to follow the evaluation protocol of NICE-SLAM, please refer to our supplementary material for detailed parameters setting.

Acknowledgement

We adapt codes from some awesome repositories, including NICE-SLAM, NeuralRGBD, tiny-cuda-nn. Thanks for making the code available. We also thank Zihan Zhu of NICE-SLAM, Edgar Sucar of iMAP for their prompt responses to our inquiries regarding the details of their methods.

The research presented here has been supported by a sponsored research award from Cisco Research and the UCL Centre for Doctoral Training in Foundational AI under UKRI grant number EP/S021566/1. This project made use of time on Tier 2 HPC facility JADE2, funded by EPSRC (EP/T022205/1).

Citation

If you find our code or paper useful for your research, please consider citing:

@inproceedings{wang2023coslam,
        title={Co-SLAM: Joint Coordinate and Sparse Parametric Encodings for Neural Real-Time SLAM},
        author={Wang, Hengyi and Wang, Jingwen and Agapito, Lourdes},
        booktitle={CVPR},
        year={2023}
}

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