Awesome
SOD_Evaluation_Metrics
A more complete python version (GPU) of the fast evaluation for salient object detection (with S-measure, Fbw measure, MAE, max/mean/adaptive F-measure, max/mean/adaptive E-measure, PRcurve and F-measure curve)
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Codes are reimplemented from the matlab version which is available from http://dpfan.net/, modified from metricsource1, metricsource2, and curvesource3.
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Evaluating 1000 images (ECSSD, all metrics) costs about 280 seconds using this implementation, while about 800 seconds for the matlab version. The evaluation results are consistent with the matlab version.
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The source files should be orginized as follows:
--gt/ --Dataset_1/ --img1.png --img2.png ... --Dataset_2/ ... --pred_maps/ --Method_1/ --Dataset_1/ --img1.png --img1.png ... --Dataset_2/ ... --Method_2/ ... -
Evaluate your map by run:
python main.py --pred_root_dir ./pred_maps/ --gt_root_dir ./gt/ --save_dir ./score/ -
The format of the result file is shown as this.
#[Dataset_Name] [Method_Name]# [value mae], [value max-fmeasure], [value mean-fmeasure], [value9 adp-fmeasure], [value max-Emeasure], [value mean-Emeasure], [value adp-Emeasure], [value S-measure_alpha05], [value Fbw-measure]. -
Draw the PR curve and F-measure Curve by run:
python draw_curve.pyThen, the image file will be saved to './score/'. Two virtual curves are shown as follows:
| PR curve: Dataset_2 | F-measure curve: Dataset_2 |
|---|---|
 |  |
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The above metrics are related to the following papers:
@inproceedings{Fmeasure, title={Frequency-tuned salient region detection}, author={Achanta, Radhakrishna and Hemami, Sheila and Estrada, Francisco and S{\"u}sstrunk, Sabine}, booktitle=CVPR, number={CONF}, pages={1597--1604}, year={2009} } @inproceedings{MAE, title={Saliency filters: Contrast based filtering for salient region detection}, author={Perazzi, Federico and Kr{\"a}henb{\"u}hl, Philipp and Pritch, Yael and Hornung, Alexander}, booktitle=CVPR, pages={733--740}, year={2012} } @inproceedings{Smeasure, title={Structure-measure: A new way to eval foreground maps}, author={Fan, Deng-Ping and Cheng, Ming-Ming and Liu, Yun and Li, Tao and Borji, Ali}, booktitle=ICCV, pages={4548--4557}, year={2017} } @inproceedings{Emeasure, title="Enhanced-alignment Measure for Binary Foreground Map Evaluation", author="Deng-Ping {Fan} and Cheng {Gong} and Yang {Cao} and Bo {Ren} and Ming-Ming {Cheng} and Ali {Borji}", booktitle=IJCAI, pages="698--704", year={2018} } @inproceedings{wFmeasure, title={How to eval foreground maps?}, author={Margolin, Ran and Zelnik-Manor, Lihi and Tal, Ayellet}, booktitle=CVPR, pages={248--255}, year={2014} }