Vibashan VS, Jeya Maria Jose, Poojan Oza, Vishal M Patel
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Python 3.7
Pytorch >=1.0
MS-COCO 2014 (T.-Y. Lin, M. Maire, S. Belongie, J. Hays, P. Perona, D. Ramanan, P. Dollar, and C. L. Zitnick. Microsoft coco: Common objects in context. In ECCV, 2014. 3-5.) is utilized to train our auto-encoder network.
KAIST (S. Hwang, J. Park, N. Kim, Y. Choi, I. So Kweon, Multispectral pedestrian detection: Benchmark dataset and baseline, in: Proceedings of the IEEE conference on computer vision and pattern recognition, 2015, pp. 1037β1045.) is utilized to train the RFN modules.
The testing datasets are included in "analysis_MatLab".
python train_fusionnet_axial.py
python test_21pairs_axial.py
The Fusion results are included in "analysis_MatLab".
If you have any questions about the code, feel free to contact me at [email protected].
This codebase is built on top of RFN-Nest by Li Hui.
If you found IFT useful in your research, please consider starring β us on GitHub and citing π us in your research!
@inproceedings{vs2022image,
title={Image fusion transformer},
author={Vs, Vibashan and Valanarasu, Jeya Maria Jose and Oza, Poojan and Patel, Vishal M},
booktitle={2022 IEEE International Conference on Image Processing (ICIP)},
pages={3566--3570},
year={2022},
organization={IEEE}
}