DSen2
Deep Sentinel-2
Super-Resolution of Sentinel-2 Images: Learning a Globally Applicable Deep Neural Network
Contact: Charis Lanaras, [email protected]
Requirements
- tensorflow-gpu (or tensorflow)
- keras
- nupmy
- scikit-image
- argparse
- imageio
- matplotlib (optional)
- GDAL >= 2.2 (optional)
Training
See the detailed description in the training
directory. Use the --resume
option with your application related Sentinel-2 tiles to refine the provided network weights.
Using the Trained Network
The network can be used directly on downloaded Sentinel-2 tiles. See details in the s2_tiles_supres.py
file. An example follows:
python s2_tiles_supres.py /path/to/S2A_MSIL1C_20161230T074322_N0204_R092_T37NCE_20161230T075722.SAFE/MTD_MSIL1C.xml /path/to/output_file.tif --roi_x_y "100,100,2000,2000"
Point to the .xml
file of the uzipped S2 tile. You must also provide an output file -- consider using a .tif
extension that is easily read by QGIS. If you want to also copy the high resolution (10m bands) you can do so, with the option --copy_original_bands
.
To also predict the lowest resolution bands (60m) use the --run_60
option.
MATLAB Demo
The demo is also ported to MATLAB: demoDSen2.m
. However, MATLAB 2018a or newer is needed to run. It utilizes the Neural Network toolbox that can be accelerated with the Parallel Computing Toolbox.
Used Sentinel-2 tiles
The Sentinel-2 tiles used for training and testing are listed in:
S2_tiles_training.txt
S2_tiles_testing.txt
They can be downloaded from the Copernicus Open Access Hub.