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Official implementation of the paper "AutoInst: Automatic Instance-Based Segmentation of LiDAR 3D Scans"

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AutoInst : Automatic Instance-Based Segmentation of LiDAR 3D Scans [IROS 2024]

Cedric Perauer, Laurenz Adrian Heidrich, Haifan Zhang, Matthias Nießner, Anastasiia Kornilova, and Alexey Artemov

Project Page arXiv License: MIT

Screenshot from 2024-10-07 23-03-51

Requirements

We ran the NCuts pipeline with both Python 3.9 (on x86 AMD CPU with Ubuntu 20.04, 128GB RAM and without the RAM intensive map creation on M1/M2 Macbook Air). For self-training/MaskPLS inference we used 3080 and 4090 GPUs with Cuda 11.8.

Python Libraries

For Ncuts based extraction install the packages below :

cd autoinst/
sh setup.sh #creates conda env named autoinst

For running the refined MaskPLS model, please refer to the additional instructions in self-training readme

Patchwork++

Install the python bindings for Patchwork++ :

git clone [email protected]:url-kaist/patchwork-plusplus.git
sudo apt-get install g++ build-essential libeigen3-dev python3-pip python3-dev cmake -y
conda activate autoinst
make pyinstall

For more details please see their original repo

Dataset

We use the SemanticKITTI dataset. Including our extracted features, our dataset structure looks like this :

structure

Feature Pre-processing

We provide the scripts for extracting the relevant image and point-based features in autoinst/2D-VFMs /dinov2 and autoinst/Pointcloud-Models/tarl.

Pre-computed sample features

We also provide the complete data (including extracted aggregated maps) for the first map for testing out our code. Please download the dataset related files here and unzip the subdirectories. Then set DATASET_PATH in config.py to this directory.

Pre-computed sample map

Preprocessing the maps requires more memory (our machine used 128GB), while chunk-based GraphCuts can be run on a laptop. Therefore we also provide the aggregation data for the first map here. You should then set OUT_FOLDER in config.py to this directory so the maps can be loaded correctly.

Running the Pipeline Code

Make sure to set the dataset path in autoinst/pipeline/config.py accordingly. You can also configure the feature combinations/use of MaskPLS in config.py accordingly (by default TARL/Spatial is used). By default, the first map is run for which we provide the data (see links above) and the metrics are computed.

cd autoinst/pipeline/
python run_pipeline.py 

Simple 3D Graph Cuts example

If you are interested in using our GraphCuts implementation for your own project, we provide a simple implementation that only uses spatial distances here.

Using MaskPLS

To use MaskPLS inference, simply set the config to config_maskpls_tarl_spatial. You can download one of the set of weights here.

Generating Training Chunks

To generate training chunks, simply set the flag in autoinst/pipeline/config.py to True. Metrics computation is skipped and the output is stored in the according directory.

Self-Training

For self-training, please refer to the corresponding self-training readme. This readme also contains the info for MaskPLS inference.

Expected Results for sample map

Method AP P/R/F1 S_assoc
NCuts Spatial 41.74% 86.15%/75.67%/80.57% 70.19%
NCuts TARL/Spatial 53.74% 87.69%/77.02%/82.01% 71.05%
NCuts TARL/Spatial/Dino 34.33% 81.65%/60.13%/69.26% 60.00%
MaskPLS Tarl/Spatial 65.93% 91.53%/80.40%/85.61% 78.42%

Running Full Pipeline

To run the full pipeline/evaluation of our main method follow these steps :

  1. Extract TARL Features based on autoinst/Pointcloud-Models/tarl
  2. Run NCuts to generate the training data, setting the config to config_tarl_spatial and GEN_SELF_TRAIN_DATA to True:
cd pipeline/
python run_pipeline.py
  1. Run Self-Training according to the instructions in the corresponding self-training readme
  2. Run the pipeline with MaskPLS to obtain full map results : Make sure the TEST_MAP test mode is set to False.
    Set the config to config_maskpls_tarl_spatial and set the weights path accordingly.
cd pipeline/
python run_pipeline.py
  1. The main scripts stores the per sequence results in pipeline/results, to average them and obtain the final metrics run (printed out by the script) :
cd pipeline/
python metrics/average_sequences.py

Acknowledgements

Among others, our project was inspired from/uses code from Unscene3D, MaskPLS,TARL, Dinov2, semantic kitti api, Patchwork++ and we would like to thank the authors for their valuable work.

If you use parts of our code or find our project useful, please consider citing our paper :

@article{perauer2024autoinst,
  title={AutoInst: Automatic Instance-Based Segmentation of LiDAR 3D Scans},
  author={Perauer, Cedric and Heidrich, Laurenz Adrian and Zhang, Haifan and Nie{\ss}ner, Matthias and Kornilova, Anastasiia and Artemov, Alexey},
  journal={arXiv preprint arXiv:2403.16318},
  year={2024}
}

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