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CVPR 2020, Semantic Correspondence as an Optimal Transport Problem, Pytorch Implementation.

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Semantic Correspondence as an Optimal Transport Problem

This is the implementation of our CVPR2020 paper "Semantic Correspondence as an Optimal Transport Problem" by Liu, Y., Zhu, L., Yamada, M. and Yang, Y.

Implemented on Python 3.6 and Pytorch 1.4.0.

For more information, check out the paper on [CVPR2020].

Conda environment settings

conda create -n scot python=3.6
conda activate scot

cat /usr/local/cuda/version.txt
conda install pytorch=1.4.0 torchvision cudatoolkit=10.0 -c pytorch (if CUDA 10) 
conda install pytorch=1.4.0 torchvision cudatoolkit=9.0 -c pytorch (if CUDA 9) 

conda install -c anaconda scikit-image
conda install -c anaconda pandas
conda install -c anaconda requests
pip install gluoncv-torch

Reproduction

SCOT Results on PF-PASCAL with res101 (PCK: 63.2/85.4/92.8)

python evaluate_map_CAM.py --dataset pfpascal --thres img --backbone resnet101 --hyperpixel '(2,22,24,25,27,28,29)' --sim OTGeo --exp1 1.0 --exp2 0.5 --eps 0.05 --gpu 0 --classmap 1 --split test --alpha 0.05
python evaluate_map_CAM.py --dataset pfpascal --thres img --backbone resnet101 --hyperpixel '(2,22,24,25,27,28,29)' --sim OTGeo --exp1 1.0 --exp2 0.5 --eps 0.05 --gpu 0 --classmap 1 --split test --alpha 0.10
python evaluate_map_CAM.py --dataset pfpascal --thres img --backbone resnet101 --hyperpixel '(2,22,24,25,27,28,29)' --sim OTGeo --exp1 1.0 --exp2 0.5 --eps 0.05 --gpu 0 --classmap 1 --split test --alpha 0.15

SCOT Results on PF-PASCAL with resnet101-FCN (PCK: 67.1/89.0/95.4)

python evaluate_map_CAM.py --dataset pfpascal --thres img --backbone fcn101 --hyperpixel '(2,4,5,18,19,20,24,32)' --sim OTGeo --exp1 1.0 --exp2 0.5 --eps 0.05 --gpu 0 --classmap 1 --split test --cam FCN --alpha 0.05
python evaluate_map_CAM.py --dataset pfpascal --thres img --backbone fcn101 --hyperpixel '(2,4,5,18,19,20,24,32)' --sim OTGeo --exp1 1.0 --exp2 0.5 --eps 0.05 --gpu 0 --classmap 1 --split test --cam FCN --alpha 0.10
python evaluate_map_CAM.py --dataset pfpascal --thres img --backbone fcn101 --hyperpixel '(2,4,5,18,19,20,24,32)' --sim OTGeo --exp1 1.0 --exp2 0.5 --eps 0.05 --gpu 0 --classmap 1 --split test --cam FCN --alpha 0.15

SCOT Results on PF-WILLOW with res101 (PCK: 48.0/76.2/87.1)

python evaluate_map_CAM.py --dataset pfwillow --thres bbox --backbone resnet101 --hyperpixel '(2,22,24,25,27,28,29)' --sim OTGeo --exp1 1.0 --exp2 0.5 --eps 0.05 --gpu 0 --classmap 1 --split test --alpha 0.05
python evaluate_map_CAM.py --dataset pfwillow --thres bbox --backbone resnet101 --hyperpixel '(2,22,24,25,27,28,29)' --sim OTGeo --exp1 1.0 --exp2 0.5 --eps 0.05 --gpu 0 --classmap 1 --split test --alpha 0.10
python evaluate_map_CAM.py --dataset pfwillow --thres bbox --backbone resnet101 --hyperpixel '(2,22,24,25,27,28,29)' --sim OTGeo --exp1 1.0 --exp2 0.5 --eps 0.05 --gpu 0 --classmap 1 --split test --alpha 0.15

SCOT Results on PF-WILLOW with res101-FCN (PCK: 50.6/78.1/89.1)

python evaluate_map_CAM.py --dataset pfwillow --thres bbox --backbone fcn101 --hyperpixel '(2,4,5,18,19,20,24,32)' --sim OTGeo --exp1 1.0 --exp2 0.5 --eps 0.05 --gpu 0 --classmap 1 --split test --cam FCN --alpha 0.05
python evaluate_map_CAM.py --dataset pfwillow --thres bbox --backbone fcn101 --hyperpixel '(2,4,5,18,19,20,24,32)' --sim OTGeo --exp1 1.0 --exp2 0.5 --eps 0.05 --gpu 0 --classmap 1 --split test --cam FCN --alpha 0.10
python evaluate_map_CAM.py --dataset pfwillow --thres bbox --backbone fcn101 --hyperpixel '(2,4,5,18,19,20,24,32)' --sim OTGeo --exp1 1.0 --exp2 0.5 --eps 0.05 --gpu 0 --classmap 1 --split test --cam FCN --alpha 0.15

SCOT Results on SPair-71k with res101 no CAM (PCK: 31.3/34.8)

python evaluate_map_CAM.py --dataset spair --thres bbox --backbone resnet50 --hyperpixel '(0,11,12,13)' --sim OTGeo --exp1 1.0 --exp2 1.0 --eps 0.05 --gpu 0 --classmap 0 --split test --alpha 0.10
python evaluate_map_CAM.py --dataset spair --thres bbox --backbone resnet101 --hyperpixel '(0,19,27,28,29,30)' --sim OTGeo --exp1 1.0 --exp2 1.0 --eps 0.05 --gpu 0 --classmap 0 --split test --alpha 0.10

SCOT Results on SPair-71k with res101 (PCK: 32.1/35.4)

python evaluate_map_CAM.py --dataset spair --thres bbox --backbone resnet50 --hyperpixel '(0,11,12,13)' --sim OTGeo --exp1 1.0 --exp2 1.0 --eps 0.05 --gpu 0 --classmap 1 --split test --alpha 0.10
python evaluate_map_CAM.py --dataset spair --thres bbox --backbone resnet101 --hyperpixel '(0,19,27,28,29,30)' --sim OTGeo --exp1 1.0 --exp2 1.0 --eps 0.05 --gpu 0 --classmap 1 --split test --alpha 0.10

SCOT on TSS with res101

python evaluate_map_TSS_CAM.py --dataset TSS --thres img --backbone resnet101 --hyperpixel '(2, 22, 24, 25, 27, 28, 29)' --sim OTGeo --exp1 1 --exp2 1 --eps 0.05 --gpu 0 --classmap 1

Beam search

python beamsearch.py --dataset pfpascal --backbone resnet101 --thres img --exp1 1.0 --exp2 0.5 --classmap 0
python beamsearch.py --dataset spair --backbone resnet50 --thres bbox --classmap 0
python beamsearch.py --dataset spair --backbone resnet101 --thres bbox --classmap 0

Bibtex

If you use this code or results for your research, please consider citing:

@inproceedings{liu2020semantic,
    title={Semantic Correspondence as an Optimal Transport Problem},
    author={Liu, Yanbin and Zhu, Linchao and Yamada, Makoto and Yang, Yi},
    booktitle={Proceedings of the IEEE/CVF Conference on Computer Vision and Pattern Recognition},
    pages={4463--4472},
    year={2020}
}

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CVPR 2020, Semantic Correspondence as an Optimal Transport Problem, Pytorch Implementation.

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