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Follow the instruction in https://docs.conda.io/projects/conda/en/latest/user-guide/install/linux.html for downloading and installing Miniconda
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Open a terminal in the code directory
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Create an environment using the .yml file:
conda env create -f deepsatmodels_env.yml -
Activate the environment:
source activate deepsatmodels -
Install required version of torch:
conda install pytorch torchvision torchaudio cudatoolkit=10.1 -c pytorch-nightly
The data for Germany can be downloaded from: https://github.com/TUM-LMF/MTLCC
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clone the repository in a separate directory:
git clone https://github.com/TUM-LMF/MTLCC -
move to the MTLCC root directory:
cd MTLCC -
download the data (40 Gb):
bash download.sh full
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go to the "CSCL_code" home directory:
cd <.../CSCL_code> -
activate the "cssl" python environment:
conda activate cscl -
add "CSCL_code" home directory to PYTHONPATH:
export PYTHONPATH="<.../CSCL_code>:$PYTHONPATH" -
Run the "data/MTLCC/make_pkl_dataset.py" script. Parameter
numworkersdefines the number of parallel processes employed:python data/MTLCC/make_pkl_dataset.py --rootdir <.../MTLCC> --numworkers <numworkers(int)-default-is-4> -
Running the above script will have the following effects:
- will create a paths file for the tfrecords files in ".../MTLCC/data_IJGI18/datasets/full/tfrecords240_paths.csv"
- will create a new directory to save data ".../MTLCC/data_IJGI18/datasets/full/240pkl"
- will save data in ".../MTLCC/data_IJGI18/datasets/full/240pkl/<data16, data17>"
- will save relative paths for all data, train data, eval data in ".../MTLCC/data_IJGI18/datasets/full/240pkl"
The T31TFM_1618 dataset can be downloaded from Google drive here. Unzipping will create the following folder tree.
T31TFM_1618
├── 2016
│ ├── pkl_timeseries
│ ├── W799943_N6568107_E827372_S6540681
│ | └── 6541426_800224_2016.pickle
| | └── ...
| ├── ...
├── 2017
│ ├── pkl_timeseries
│ ├── W854602_N6650582_E882428_S6622759
│ | └── 6623702_854602_2017.pickle
| | └── ...
| ├── ...
├── 2018
│ ├── pkl_timeseries
│ ├── W882228_N6595532_E909657_S6568107
│ | └── 6568846_888751_2018.pickle
| | └── ...
| ├── ...
├── deepsatdata
| └── T31TFM_16_products.csv
| └── ...
| └── T31TFM_16_parcels.csv
| └── ...
└── paths
└── train_paths.csv
└── eval_paths.csvTo recreate the dataset use the DeepSatData data generation pipeline.
- Clone and move to the DeepSatData base directory
git clone https://github.com/michaeltrs/DeepSatData
cd .../DeepSatData- Download the Sentinel-2 products.
sh download/download.sh .../T31TFM_16_parcels.csv,.../T31TFM_17_parcels.csv,.../T31TFM_18_parcels.csv- Generate a labelled dataset (use case 1) for each year.
sh dataset/labelled_dense/make_labelled_dataset.sh ground_truths_file=<1:ground_truths_file> products_dir=<2:products_dir> labels_dir=<3:labels_dir> windows_dir=<4:windows_dir> timeseries_dir=<5:timeseries_dir>
res=<6:res> sample_size=<7:sample_size> num_processes<8:num_processes> bands=<8:bands (optional)>-
Add the base directory and paths to train and evaluation path files in "data/datasets.yaml".
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For each experiment we use a separate ".yaml" configuration file. Examples files are providedided in "configs". The default values filled in these files correspond to parameters used in the experiments presented in the paper.
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activate "deepsatmodels" python environment:
conda activate deepsatmodels
Modify respective .yaml config files accordingly to define the save directory or loading a pre-trained model from pre-trained checkpoints.
`python train_and_eval/segmentation_training.py --config_file configs/**/UNet3D.yaml --gpu_ids 0,1`
`python train_and_eval/segmentation_training.py --config_file configs/**/UNet2D_CLSTM.yaml --gpu_ids 0,1`
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model pre-training
python train_and_eval/segmentation_cscl_training.py --config_file configs/**/UNet2D_CLSTM_CSCL.yaml --gpu_ids 0,1 -
copy the path to the pre-training save directory in CHECKPOINT.load_from_checkpoint. This will load the latest saved model. To load a specific checkpoint copy the path to the .pth file
python train_and_eval/segmentation_training.py --config_file configs/**/UNet2D_CLSTM.yaml --gpu_ids 0,1
`python train_and_eval/segmentation_training.py --config_file configs/**/UNet3Df.yaml --gpu_ids 0,1`
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model pre-training
python train_and_eval/segmentation_cscl_training.py --config_file configs/**/UNet3Df_CSCL.yaml --gpu_ids 0,1 -
copy the path to the pre-training save directory in CHECKPOINT.load_from_checkpoint. This will load the latest saved model. To load a specific checkpoint copy the path to the .pth file
python train_and_eval/segmentation_training.py --config_file configs/**/UNet3Df.yaml --gpu_ids 0,1