Pytorch Code of AGW method [1] for Cross-Modality Person Re-Identification (Visible Thermal Re-ID) on RegDB dataset [3] and SYSU-MM01 dataset [4].
We adopt the two-stream network structure introduced in [2]. ResNet50 is adopted as the backbone. The softmax loss is adopted as the baseline.
| Datasets | Pretrained | Rank@1 | mAP | mINP | Model |
|---|---|---|---|---|---|
| #RegDB | ImageNet | ~ 70.05% | ~ 66.37% | ~50.19% | ----- |
| #SYSU-MM01 | ImageNet | ~ 47.50% | ~ 47.65% | ~35.30% | GoogleDrive |
*Both of these two datasets may have some fluctuation due to random spliting. The results might be better by finetuning the hyper-parameters.
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(1) RegDB Dataset [3]: The RegDB dataset can be downloaded from this website by submitting a copyright form.
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(Named: "Dongguk Body-based Person Recognition Database (DBPerson-Recog-DB1)" on their website).
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A private download link can be requested via sending me an email ([email protected]).
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(2) SYSU-MM01 Dataset [4]: The SYSU-MM01 dataset can be downloaded from this website.
- run
python pre_process_sysu.pyto pepare the dataset, the training data will be stored in ".npy" format.
- run
Train a model by
python train.py --dataset sysu --lr 0.1 --method agw --gpu 1-
--dataset: which dataset "sysu" or "regdb". -
--lr: initial learning rate. -
--method: method to run or baseline. -
--gpu: which gpu to run.
You may need mannully define the data path first.
Parameters: More parameters can be found in the script.
Sampling Strategy: N (= bacth size) person identities are randomly sampled at each step, then randomly select four visible and four thermal image. Details can be found in Line 302-307 in train.py.
Training Log: The training log will be saved in log/" dataset_name"+ log. Model will be saved in save_model/.
Test a model on SYSU-MM01 or RegDB dataset by
python test.py --mode all --resume 'model_path' --gpu 1 --dataset sysu-
--dataset: which dataset "sysu" or "regdb". -
--mode: "all" or "indoor" all search or indoor search (only for sysu dataset). -
--trial: testing trial (only for RegDB dataset). -
--resume: the saved model path. -
--gpu: which gpu to run.
Please kindly cite this paper in your publications if it helps your research:
@article{arxiv20reidsurvey,
title={Deep Learning for Person Re-identification: A Survey and Outlook},
author={Ye, Mang and Shen, Jianbing and Lin, Gaojie and Xiang, Tao and Shao, Ling and Hoi, Steven C. H.},
journal={arXiv preprint arXiv:2001.04193},
year={2020},
}
[1] M. Ye, J. Shen, G. Lin, T. Xiang, L. Shao, and S. C., Hoi. Deep learning for person re-identification: A survey and outlook. IEEE Transactions on Pattern Analysis and Machine Intelligence (TPAMI), 2020.
[2] M. Ye, X. Lan, Z. Wang, and P. C. Yuen. Bi-directional Center-Constrained Top-Ranking for Visible Thermal Person Re-Identification. IEEE Transactions on Information Forensics and Security (TIFS), 2019.
[3] D. T. Nguyen, H. G. Hong, K. W. Kim, and K. R. Park. Person recognition system based on a combination of body images from visible light and thermal cameras. Sensors, 17(3):605, 2017.
[4] A. Wu, W.-s. Zheng, H.-X. Yu, S. Gong, and J. Lai. Rgb-infrared crossmodality person re-identification. In IEEE International Conference on Computer Vision (ICCV), pages 5380–5389, 2017.
Contact: [email protected]