This is the official repository for Long-range UAV Thermal Geo-localization with Satellite Imagery.
@INPROCEEDINGS{10342068,
author={Xiao, Jiuhong and Tortei, Daniel and Roura, Eloy and Loianno, Giuseppe},
booktitle={2023 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS)},
title={Long-Range UAV Thermal Geo-Localization with Satellite Imagery},
year={2023},
volume={},
number={},
pages={5820-5827},
doi={10.1109/IROS55552.2023.10342068}}
Developer: Jiuhong Xiao
Affiliation: NYU ARPL
Maintainer: Jiuhong Xiao (jx1190@nyu.edu)
Dataset link: Download
The dataset folder should be created in the root folder with the following structure
satellite-thermal-geo-localization/datasets/satellite_0_thermalmapping_135/
├── test_database.h5
├── test_queries.h5
├── train_database.h5
├── train_queries.h5
├── extended_database.h5
├── extended_queries.h5 # Need to generate by yourself using trained TGM
├── val_database.h5
└── val_queries.h5
Check your md5sum after downloading the dataset:
3d2faea188995dd687c77178621b6fc7 extended_database.h5
7ef56acc4a746e7bafe1df91131d7737 test_database.h5
f891d9feca5f4252169a811e8c8e648d test_queries.h5
f075a7a6db5d5d61be88d252f7d6e05b train_database.h5
b44ee39173bf356b24690ed6933a6792 train_queries.h5
31923c28dd074ddaacf0c463681f7d2b val_database.h5
fdcb2e12d9a29b8d20a4cbd88bfe430c val_queries.h5
Our repository requires a conda environment. Relevant packages are listed in env.yml. Run the following command to setup the conda environment.
conda env create -f env.yml
You can find the training scripts and evaluation scripts in scripts folder. The scripts is for slurm system to submit sbatch job. If you want to run bash command, change the suffix from sbatch to sh and run with bash.
- To train Thermal Generate Module (TGM), use one of the following scripts:
./scripts/train_bing_thermal_translation_100.sbatch # Best choice
./scripts/train_bing_thermal_translation_10.sbatch
./scripts/train_bing_thermal_translation_100_noncontrast.sbatch
./scripts/train_bing_thermal_translation_10_noncontrast.sbatch
After training TGM, find your model folder in ./logs/default/satellite_0_thermalmapping135-datetime
The satellite_0_thermalmapping135-datetime is your TGM_model_folder_name.
- To generate thermal images from extended_database.h5, run one of the following scripts:
./eval_satellite_translation.sh TGM_model_folder_name # Best choice
./eval_satellite_translation_nocontrast.sh TGM_model_folder_name
After running this scripts, you can find a file train_queries.h5 in ./test/default/model_folder_name/satellite_0_thermalmapping135-datetime
Rename it to extended_queries.h5 and move it to ./datasets/satellite_0_thermalmapping135.
- Rename the dataset folder to one of the following:
./datasets/satellite_0_thermalmapping_135/ #./scripts/train_bing_thermal_translation_10.sbatch
./datasets/satellite_0_thermalmapping_135_100/ #./scripts/train_bing_thermal_translation_100.sbatch
./datasets/satellite_0_thermalmapping_135_nocontrast/ #./scripts/train_bing_thermal_translation_10_nocontrast.sbatch
./datasets/satellite_0_thermalmapping_135_100_nocontrast/ #./scripts/train_bing_thermal_translation_100_nocontrast.sbatch
The dataset name depends on the training script you use, which is listed on the right of each dataset name. This is to avoid confusion about which TGM setting is used to generate.
To train Satellite-thermal Geo-localization Module (SGM), use one of the scripts in ./scripts per name, for example:
./scripts/train_bing_thermal_partial_conv4096_bn_lr_wd_DANN_after_ld_dp_contrast_extended_100.sbatch # Best choice
After training SGM, find your model folder in ./logs/default/satellite_0_thermalmapping135-datetime-uuid
The satellite_0_thermalmapping135-datetime-uuid is your SGM_model_folder_name.
To evaluate SGM, use one of the following scripts:
./scripts/eval.sbatch SGM_model_folder_name backbone_name
./scripts/eval_nocontrast.sbatch SGM_model_folder_name backbone_name
Note that running evaluation scripts requires two arguments: SGM_model_folder_name and backbone_name. The typical backbone we use is resnet18conv4.
Find the test results in in ./test/default/model_folder_name/satellite_0_thermalmapping135-datetime. There will be two folders. This first reports R@1 and R@5. The second reports R_512@1, R_512@5 and L^512_2.
Our implementation refers to the following repositories and appreciate their excellent work.
https://github.com/gmberton/deep-visual-geo-localization-benchmark
https://github.com/fungtion/DANN
https://github.com/junyanz/pytorch-CycleGAN-and-pix2pix