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Using neural networks to identify glacier calving fronts from satellite imagery

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Detection of Glacier Calving Margins with Convolutional Neural Networks: A Case Study

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This repository includes the scripts, training data, and trained networks presented in Mohajerani et al. (2019).

Overview of the neural network and sample results comparing the neural network, manual, and analytical (Sobel) filter performances, from Mohajerani et al. (2019).

Citation

Please cite:

Mohajerani, Y.; Wood, M.; Velicogna, I.; Rignot, E. Detection of Glacier Calving Margins with Convolutional Neural Networks: A Case Study. Remote Sens. 2019, 11, 74. doi:10.3390/rs11010074

The latest release of this repository is also deposited on Zenodo and should be cited as:

Yara Mohajerani. (2020, September 23). yaramohajerani/FrontLearning: Zenodo Release (Version v1.1). Zenodo. http://doi.org/10.5281/zenodo.4044770

Data

Training data and the trained networks presented in the paper are available in the data directory.

Note The provided scripts assume all data is located in Frontlearning_data, which should be placed in the same directory as the folder containing this repository (not inside the directory containing the scripts, instead the code and data directories should be in the same parent directory).


For a list of Python dependencies or creating a Conda environment, please refer to frontlearning_env.yml.

Pre-processing

The training data has already been rotated and pre-processed. The rotation is done by createRotatedTrainingData.py and frontlearn_preprocess.py.

The run configurations can be specified in command line. e.g.:

python createRotatedTrainingData.py --glaciers=Sverdrup,Jakobshavn --coasts=NW,CW --dimensions=2,3

python frontlearn_preprocess.py --glacier=greenland_training

Note that the rotation script assumes the raw input data is separated by coasts in the Regions directory.

The class imbalance and training time can also be improved by cropping, using a parameter file for the configuration:

python crop_input.py parameters_frontlearn_allData_UNET.txt

Neural network

The Neural Network (NN) is in unet_mode.py. This function should be imported in the train or test scripts. Note that the number of layers, channels, drop out ratio, input image size, etc. can be specified as function arguments. Also 4 overarching architectures exist as distinct functions to choose from (with and without batch normalization and the expansion rate of the number of channels from one layer to the next.)

Training

A trained NN can be created by using unet_train.py. The configurations are must be specified in a parameter file. e.g.:

python unet_train.py parameters_frontlearn_allData_UNET.txt

The script also outputs the training history for training and validation sets.

Running Pre-trained Network

Test output is also created by the script. However, if one wishes to produce predictions from a NN without training it (using an exisiting trained NN), the test script can be used:

python unet_test.py parameters_frontlearn_allData_UNET.txt

If using cropped data, the output can be restored back to the original dimensions using crop_output.py with a parameter file

python crop_input.py parameters_frontlearn_allData_UNET.txt

Post-Processing

Finally, in order to extract the calving fronts from the NN output, use the postProcessing script, postProcessing.py. Note that for Helheim (test results in the paper) we have a custom script but the input format is indentical in either case.

python postProcessing_helheim.py --subdir='helheim_test' --step=50 --indir=[path to NN output]

Note that indir specifies the full path to the directory containing the output of the NN (produced by crop_output.py), while subdir specifiese the output directory name under FrontLearning_data/Results. step corresponds to the interval size along the boundaries while searching for the path of least resistance.

Contact

For questions, contact ymohajer@uci.edu.

License

This project is under the Creative Commons Attribution 4.0 Attribution license. The code presented in this repository is under the MIT license.