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ImpliCity: City Modeling from Satellite Images with Deep Implicit Occupancy Fields

ImpliCity

This repository provides the code to train and evaluate ImpliCity: a method that reconstructs digital surface models (DSMs) from raw photogrammetric 3D point clouds and ortho-images with the help of an implicit neural 3D scene representation. It represents the official implementation of the paper:

Corinne Stucker, Bingxin Ke, Yuanwen Yue, Shengyu Huang, Iro Armeni, Konrad Schindler

Abstract: High-resolution optical satellite sensors, combined with dense stereo algorithms, have made it possible to reconstruct 3D city models from space. However, these models are, in practice, rather noisy and tend to miss small geometric features that are clearly visible in the images. We argue that one reason for the limited quality may be a too early, heuristic reduction of the triangulated 3D point cloud to an explicit height field or surface mesh. To make full use of the point cloud and the underlying images, we introduce ImpliCity, a neural representation of the 3D scene as an implicit, continuous occupancy field, driven by learned embeddings of the point cloud and a stereo pair of ortho-photos. We show that this representation enables the extraction of high-quality DSMs: with image resolution 0.5m, ImpliCity reaches a median height error of ≈0.7 m and outperforms competing methods, especially w.r.t. building reconstruction, featuring intricate roof details, smooth surfaces, and straight, regular outlines.

[supplementary], [video]

Requirements

The code has been developed and tested with:

  • Ubuntu 20.04.4 LTS, Python 3.8.10, PyTorch 1.10.0, CUDA 10.2

Installation

To create a Python virtual environment and install the required dependencies, please run:

git clone [email protected]:prs-eth/ImpliCity.git
cd ImpliCity
python3 -m venv venv/implicity_env
source venv/implicity_env/bin/activate

pip3 install --upgrade pip setuptools wheel
pip3 install -r requirements.txt

Manual installation of torch-scatter:

To install the binaries for PyTorch 1.10.0, simply run:

pip3 install torch-scatter -f https://data.pyg.org/whl/torch-1.10.0+${CUDA}.html

where ${CUDA} should be replaced by either cpu, cu102 (our environment), cu111, or cu113, depending on your PyTorch installation.

For other major OS/PyTorch/CUDA combinations, please refer to torch-scatter official documentation.

Usage

Training

To train ImpliCity from scratch, run:

python train.py <path/to/config.yaml>

For available training options, take a look at the example configuration files:

  • ./config/train_test/ImpliCity-0.yaml for ImpliCity-0
  • ./config/train_test/ImpliCity-mono.yaml for ImpliCity-mono
  • ./config/train_test/ImpliCity-stereo.yaml for ImpliCity-stereo
  • ./config/train_test/train_base.yaml for default settings

The configuration files are hierarchically inherited with new values or additional fields. ImpliCity-0.yaml and ImpliCity-mono.yaml are inherited from train_base.yaml, and ImpliCity-stereo.yaml is inherited from ImpliCity-mono.yaml.

Evaluation

To evaluate a trained ImpliCity model, run:

python test.py <path/to/config.yaml>

Make sure to include the path to the trained model weights in the configuration file config.yaml:

test:
   check_point: <path/to/model/weights.pt>

Demo

Download demo

We provide a demo for a quick run-through:

./data/ImpliCity_demo
├── data                        
│   ├── chunk_000               # input point cloud and query points
│   │   ├── ...
│   │   └── vis                 # visualization of the demo training data
│   │       └── ...
│   └── raster                  # tiff files including cropped orthorectified images, masks, ground truth DSM
│       └── ...
│   
├── expected_output             # expected output of different models (configurations) 
│   └── ...
└── model                       # pretrained models
    └── ...

Please use this script to download our demo:

bash ./scripts/download_demo.sh

Unfortunately, we cannot share our complete dataset due to the commercial nature of VHR imagery. In this demo, we thus provide a small preprocessed demo dataset with a spatial extent of 64×64 m in world coordinates:

463948.875, 5249174.125; 464012.875, 5249238.125 (EPSG:32632 - WGS 84 / UTM zone 32N - Projected)

Run demo

To run the pretrained model with demo data, please run:

# ImpliCity-0 demo:
python test.py config/train_test/ImpliCity-0.yaml

# ImpliCity-mono demo:
python test.py config/train_test/ImpliCity-mono.yaml

# ImpliCity-stereo demo:
python test.py config/train_test/ImpliCity-stereo.yaml

To continue training, please run:

# ImpliCity-0 demo:
python train.py config/train_test/ImpliCity-0.yaml  --no-wandb

# ImpliCity-mono demo:
python train.py config/train_test/ImpliCity-mono.yaml  --no-wandb

# ImpliCity-stereo demo:
python train.py config/train_test/ImpliCity-stereo.yaml  --no-wandb

Repository structure

.
├── config                 
│   ├── dataset            # configuration files for building the whole dataset
│   │   └── ...
│   └── train_test         # configuration files for training and inference 
│       └── ...             
├── data                   # data and pretrained models
├── out                    # output directory 
├── scripts                
│   ├── dataset_ImpliCity/build_dataset.py   # python script to build the whole dataset (only for reference, would not work without all source data)
│   └── download_demo.sh   # script to download demo data and pretrained models
├── src                    
│   └── ...                # source code of core modules
├── LICENSE
├── README.md              # this file
├── requirements.txt       # dependency list
├── test.py                # python script to test ImpliCity
└── train.py               # python script to train ImpliCity

Contact

If you run into any problems or have questions, please contact Bingxin Ke and Corinne Stucker.

Citation

If you find our code or work useful, please cite:

@article{stucker2022implicity,
    title={{ImpliCity}: City Modeling from Satellite Images with Deep Implicit Occupancy Fields},
    author={Stucker, Corinne and Ke, Bingxin and Yue, Yuanwen and Huang, Shengyu and Armeni, Iro and Schindler, Konrad},
    journal = {{ISPRS} Annals of the Photogrammetry, Remote Sensing and Spatial Information Sciences},
    volume = {V-2-2022},
    year = {2022},
    pages = {193--201}
}

Acknowledgements

In this project we use (parts of) the official implementations of the following works:

We thank the respective authors for open sourcing and maintenance.