This project explores the application of deep learning to waterbody detection.
https://drive.google.com/file/d/1faVYayxdNFGx2m0IxswDncoKmIxusdf7/view
To run the script, simply execute main.py with the index of the GPU you want to train with specified as an optional parameter. If no GPU is specified, the script will default to GPU 0.
python3 main.py [GPU]The script expects an external file called config.json in which the use should specify the desired configuration. Below is an example of such a file and a table outlining the effects of each setting.
{
"timestamp": 1,
"patch_size": 512,
"experiment_tag": "unet_multispectral",
"create_logs": true,
"train": true,
"test": true,
"experiments": 1,
"use_mixed_precision": true,
"hyperparameters": {
"model": "unet",
"bands": ["RGB", "NIR", "SWIR"],
"backbone": null,
"learning_rate": 0.00005,
"fusion_head": "naive",
"loss": "jaccard_bce",
"batch_size": 4,
"epochs": 50,
"apply_transfer": false,
"random_subsample": false,
"water_threshold": 0
}
}| Setting | Effects |
|---|---|
| timestamp | The timestamp to use (1, 2 or 3) |
| patch_size | The desired size of the generated patches |
| experiment_tag | The human-readable tag with which to lable the experiment |
| create_logs | Indicates whether or not we want to create logs for the experiment |
| train | Whether or not we want to run the training loop |
| test | Whether or not we want to test the trained model on the test set |
| experiments | Indicate the number of identical experiments we want to run |
| use_mixed_precision | Indicate the number of identical experiments we want to run |
| Hyperparameter | Effects |
|---|---|
| model | The model we want to use |
| bands | The bands used as inpiut to the model |
| backbone | The model of the pre-trained backbone we want to use |
| learning_rate | The learning rate used by the optimizer |
| fusion_head | The type of fusion head to use to combine spectral bands |
| loss | The loss to use during training |
| batch_size | The size of batches used in training |
| epochs | The number of epochs to train for |
| apply_transfer | Whether or not to apply the PCT water transfer method |
| random_subsample | Whether or not to randomly sample patches for training |
| water_threshold | The threshold at which to stop transplanting water bodies if apply_transfer=true |
Please cite our work if it is helpful for your research.
@article{rs15051253,
title={Water Body Extraction from Sentinel-2 Imagery with Deep Convolutional Networks and Pixelwise Category Transplantation},
author={Billson, Joshua and Islam, MD Samiul and Sun, Xinyao and Cheng, Irene},
journal={Remote Sensing},
volume={15},
year={2023},
number={5},
article-number={1253},
url={https://www.mdpi.com/2072-4292/15/5/1253},
issn={2072-4292},
doi={10.3390/rs15051253}
}