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Repository Details

evaluation toolbox for salient object detection

Evaluation Toolbox for Salient Object Detection

To use this toolbox, read README.md in folder 'tools'.

Datasets [citations]

Methods [citations]

Only fully supervised Deep Learning based methods are included.

NOTE: please see my another repo to get the papers.

2019

Method Name AFNet PoolNet BASNet CPD MLMSNet
Platform Caffe PyTorch PyTorch PyTorch PyTorch
Model Size 143.9 MB 278.5 MB (ResNet50) 348.5 MB (ResNet34) 192.0 MB (ResNet50) 297.6 MB

2018

Method Name BMPM DGRL PAGR RAS PiCANet R3Net
Platform Tensorflow Caffe Caffe Caffe Caffe PyTorch
Model Size - 648.0 MB (ResNet50) - 81.0 MB 153.3/197.2 MB (VGG/ResNet50) 225.3 MB (ResNeXt101)

2017

Method Name Amulet UCF SRM MSRNet NLDF DSS
Platform Caffe Caffe Caffe Caffe Tensorflow Caffe
Model Size 132.6 MB 117.9 MB 213.1 MB (ResNet50) 331.8 MB 425.9 MB 447.3 MB

2016

Method Name RFCN SCSD-HS DS ELD DCL DHS
Platform Caffe Caffe Caffe Caffe Caffe Caffe
Model Size 1126.4 MB - 537.1 MB 667.2 MB 265.0 MB 376.2 MB

2015

Method Name LEGS MCDL MDF
Platform Caffe Caffe Caffe
Model Size 73.6 MB 233.1 MB 330.8 MB

Table

All saliency maps are provided by the authors or calculated using their released codes.

ECSSD

pre-computed saliency maps [BaiduYun]

pre-computed .mat files [BaiduYun] (please contact me if you need this)

Methods year max F-measure mean F-measure MAE S-measure IoU(@ max Fm) mean IoU max IoU
MLMSNet 2019 .928 .868 .045 .911 .838 .821 .854
CPD-R 2019 .939 .917 .037 .918 .849 .847 .865
BASNet 2019 .942 .879 .037 .916 .860 .855 .870
PoolNet 2019 .949 .918 .035 .926 .862 .858 .879
AFNet 2019 .935 .908 .042 .914 .839 .835 .857
BMPM 2018 .929 .869 .045 .911 .838 .821 .854
DGRL 2018 .922 .906 .041 .903 .830 .838 .846
PAGR 2018 .927 .894 .061 .889 .806 .770 .825
RAS 2018 .921 .889 .056 .893 .808 .792 .823
PiCANet 2018 .931 .884 .047 .914 .827 .812 .853
PiCANet-C 2018 .932 .913 .036 .910 .844 .850 .858
R3Net 2018 .931 .917 .046 .900 .831 .825 .850
Amulet 2017 .915 .870 .059 .894 .800 .787 .822
UCF 2017 .911 .840 .078 .883 .785 .745 .812
SRM 2017 .917 .892 .054 .895 .796 .783 .824
MSRNet 2017 .911 .839 .054 .896 .790 .791 .820
NLDF 2017 .905 .878 .063 .875 .773 .766 .798
DSS 2017 .916 .901 .052 .882 .796 .803 .816
RFCN 2016 .890 .834 .107 .852 .740 .645 .763
SCSD-HS 2016 .865 .719 .192 .773 .707 .569 .745
DS 2016 .882 .826 .122 .821 .726 .552 .755
ELD 2016 .867 .810 .079 .839 .699 .709 .727
DCL 2016 .890 .829 .088 .828 .748 .646 .777
DHS 2016 .907 .872 .059 .884 .779 .773 .805
LEGS 2015 .827 .785 .118 .787 .656 .574 .678
MCDL 2015 .837 .796 .101 .803 .656 .615 .688
MDF 2015 .832 .807 .105 .776 .641 .599 .682

PASCAL-S

pre-computed saliency maps [BaiduYun] Fetch Code: rv6h [Google Drive]

IT'S WEIRD!!!!!THE LINK WILL BE INVALID A FEW DAYS AFTER I UPDATED IT!!!!!

pre-computed .mat files [BaiduYun] (please contact me if you need this)

Methods year max F-measure mean F-measure MAE S-measure IoU(@ max Fm) mean IoU max IoU
MLMSNet 2019 .862 .769 .074 .845 .732 .728 .753
CPD-R 2019 .869 .829 .072 .847 .726 .743 .757
BASNet 2019 .862 .779 .077 .837 .733 .740 .749
PoolNet 2019 .890 .837 .065 .866 .763 .768 .784
AFNet 2019 .868 .826 .071 .850 .736 .743 .760
BMPM 2018 .862 .769 .074 .845 .732 .728 .753
DGRL 2018 .854 .825 .072 .836 .736 .742 .747
PAGR 2018 .856 .807 .093 .818 .690 .664 .713
RAS 2018 .837 .785 .104 .795 .658 .654 .676
PiCANet 2018 .868 .801 .077 .850 .732 .725 .760
PiCANet-C 2018 .867 .833 .067 .843 .736 .757 .763
R3Net 2018 .845 .807 .097 .800 .675 .677 .697
Amulet 2017 .837 .768 .098 .820 .690 .687 .717
UCF 2017 .828 .706 .126 .803 .664 .639 .695
SRM 2017 .847 .801 .085 .832 .695 .688 .724
MSRNet 2017 .855 .744 .081 .840 .699 .707 .734
NLDF 2017 .831 .779 .099 .803 .653 .664 .686
DSS 2017 .836 .804 .096 .797 .666 .676 .687
RFCN 2016 .837 .751 .118 .808 .649 .587 .674
SCSD-HS 2016 .779 .589 .220 .715 .584 .490 .624
DS 2016 .765 .659 .176 .739 .564 .451 .614
ELD 2016 .773 .718 .123 .757 .558 .586 .605
DCL 2016 .805 .714 .125 .754 .626 .558 .665
DHS 2016 .829 .779 .094 .807 .659 .660 .688
LEGS 2015 .762 .704 .155 .725 .544 .493 .588
MCDL 2015 .743 .691 .145 .719 .533 .497 .565
MDF 2015 .768 .709 .146 .692 .541 .479 .585

DUT-OMRON

pre-computed saliency maps [BaiduYun]

pre-computed .mat files [BaiduYun] (please contact me if you need this)

Methods year max F-measure mean F-measure MAE S-measure IoU(@ max Fm) mean IoU max IoU
MLMSNet 2019 .774 .692 .064 .809 .632 .627 .654
CPD-R 2019 .796 .747 .056 .824 .656 .659 .681
BASNet 2019 .805 .755 .057 .836 .682 .699 .711
PoolNet 2019 .805 .752 .054 .831 .670 .669 .692
AFNet 2019 .797 .738 .057 .826 .653 .660 .682
BMPM 2018 .774 .692 .064 .809 .632 .627 .654
DGRL 2018 .774 .733 .062 .806 .640 .649 .657
PAGR 2018 .771 .711 .071 .775 .586 .555 .611
RAS 2018 .786 .713 .062 .814 .638 .633 .660
PiCANet 2018 .794 .710 .068 .826 .657 .640 .682
PiCANet-C 2018 .784 .751 .057 .815 .647 .668 .675
R3Net 2018 .792 .756 .061 .815 .642 .661 .674
Amulet 2017 .742 .647 .098 .780 .594 .589 .622
UCF 2017 .734 .613 .132 .758 .580 .545 .608
SRM 2017 .769 .707 .069 .797 .605 .585 .634
MSRNet 2017 .782 .676 .073 .808 .616 .618 .648
NLDF 2017 .753 .684 .080 .770 .562 .562 .593
DSS 2017 .771 .729 .066 .788 .605 .617 .629
RFCN 2016 .742 .627 .111 .774 .553 .492 .583
SCSD-HS 2016 .754 .592 .194 .693 .591 .466 .611
DS 2016 .745 .603 .120 .750 .551 .451 .585
ELD 2016 .715 .611 .092 .750 .528 .540 .561
DCL 2016 .739 .684 .097 .713 .553 .482 .584
DHS 2016 -- -- -- -- -- -- --
LEGS 2015 .669 .592 .133 .714 .493 .454 .512
MCDL 2015 .701 .625 .089 .752 .541 .512 .558
MDF 2015 .694 .644 .092 .721 .490 .475 .526

HKU-IS

pre-computed saliency maps [BaiduYun]

pre-computed .mat files [BaiduYun] (please contact me if you need this)

Methods year max F-measure mean F-measure MAE S-measure IoU(@ max Fm) mean IoU max IoU
MLMSNet 2019 .921 .871 .039 .906 .818 .801 .838
CPD-R 2019 .927 .894 .033 .908 .819 .817 .839
BASNet 2019 .928 .896 .032 .909 .839 .832 .848
PoolNet 2019 .936 .903 .030 .919 .840 .834 .858
AFNet 2019 .923 .888 .036 .905 .814 .809 .835
BMPM 2018 .921 .871 .039 .907 .818 .801 .838
DGRL 2018 .910 .890 .036 .895 .802 .811 .820
PAGR 2018 .918 .886 .048 .887 .791 .753 .814
RAS 2018 .913 .871 .045 .887 .788 .771 .807
PiCANet 2018 .921 .870 .042 .906 .809 .786 .833
PiCANet-C 2018 .925 .907 .031 .904 .820 .833 .841
R3Net 2018 .917 .905 .038 .891 .799 .801 .824
Amulet 2017 .895 .839 .052 .883 .772 .755 .797
UCF 2017 .886 .808 .074 .866 .747 .706 .777
SRM 2017 .906 .874 .046 .887 .772 .754 .803
MSRNet 2017 .923 .868 .036 .912 .809 .803 .838
NLDF 2017 .902 .874 .048 .879 .770 .761 .795
DSS 2017 .910 .895 .041 .879 .779 .788 .805
RFCN 2016 .892 .835 .079 .858 .746 .643 .772
SCSD-HS 2016 .871 .740 .177 .760 .716 .544 .744
DS 2016 .865 .788 .080 .852 .696 .645 .737
ELD 2016 .839 .769 .074 .820 .652 .668 .689
DCL 2016 .885 .853 .072 .819 .729 .623 .763
DHS 2016 .890 .855 .053 .870 .746 .735 .774
LEGS 2015 .766 .723 .119 .742 .557 .499 .599
MCDL 2015 .808 .757 .092 .786 .623 .572 .647
MDF 2015 .861 .784 .129 .810 .688 .541 .718

DUTS-test

pre-computed saliency maps [BaiduYun]

pre-computed .mat files [BaiduYun] (please contact me if you need this)

Methods year max F-measure mean F-measure MAE S-measure IoU(@ max Fm) mean IoU max IoU
MLMSNet 2019 .851 .751 .049 .861 .706 .698 .736
CPD-R 2019 .866 .810 .044 .869 .724 .725 .752
BASNet 2019 .859 .796 .048 .865 .742 .741 .756
PoolNet 2019 .889 .825 .037 .886 .759 .754 .783
AFNet 2019 .862 .797 .046 .866 .721 .719 .748
BMPM 2018 .851 .751 .049 .861 .706 .698 .736
DGRL 2018 .829 .798 .050 .841 .692 .703 .713
PAGR 2018 .855 .788 .056 .837 .685 .642 .713
RAS 2018 .831 .755 .060 .839 .675 .667 .697
PiCANet 2018 .851 .755 .054 .861 .700 .685 .735
PiCANet-C 2018 .850 .818 .046 .850 .702 .722 .734
R3Net 2018 .828 .796 .059 .829 .665 .678 .598
Amulet 2017 .778 .676 .085 .803 .615 .609 .646
UCF 2017 .771 .629 .117 .778 .598 .562 .628
SRM 2017 .827 .757 .059 .834 .657 .638 .690
MSRNet 2017 .829 .708 .061 .840 .654 .658 .692
NLDF 2017 .812 .743 .066 .815 .624 .631 .661
DSS 2017 .825 .791 .057 .822 .652 .670 .684
RFCN 2016 .784 .712 .091 .792 .608 .540 .633
SCSD-HS 2016
DS 2016 .777 .633 .090 .793 .577 .532 .617
ELD 2016 .738 .628 .093 .753 .528 .541 .561
DCL 2016 .782 .714 .088 .735 .589 .504 .625
DHS 2016 .807 .724 .067 .817 .621 .621 .660
LEGS 2015 .655 .585 .138 .694 .454 .423 .485
MCDL 2015 .672 .594 .106 .712 .469 .442 .493
MDF 2015 .730 .673 .094 .732 .504 .485 .543

SOD

pre-computed saliency maps [BaiduYun]

pre-computed .mat files [BaiduYun] (please contact me if you need this)

Methods year max F-measure mean F-measure MAE S-measure IoU(@ max Fm) mean IoU max IoU
MLMSNet 2019 .855 .763 .107 .787 .675 .633 .692
CPD-R 2019 .860 .810 .111 .768 .670 .616 .691
BASNet 2019 .851 .745 .113 .769 .662 .635 .673
PoolNet 2019 .875 .830 .104 .788 .708 .652 .725
AFNet 2019 .856 .809 .109 .777 .670 .626 .693
BMPM 2018 .855 .763 .107 .787 .675 .633 .692
DGRL 2018 .845 .799 .104 .771 .655 .642 .668
PAGR 2018
RAS 2018 .850 .799 .124 .764 .644 .611 .661
PiCANet 2018 .853 .791 .102 .791 .679 .628 .701
PiCANet-C 2018 .836 .800 .087 .772 .669 .638 .680
R3Net 2018 .836 .789 .136 .732 .600 .573 .600
Amulet 2017 .806 .755 .141 .758 .619 .596 .642
UCF 2017 .803 .699 .164 .754 .601 .566 .634
SRM 2017 .843 .800 .127 .742 .636 .562 .665
MSRNet 2017 .836 .741 .113 .779 .653 .614 .683
NLDF 2017 .841 .791 .124 .757 .654 .599 .678
DSS 2017 .844 .795 .121 .751 .651 .608 .656
RFCN 2016 .799 .751 .170 .730 .602 .488 .629
SCSD-HS 2016 .796 .628 .222 .710 .592 .477 .612
DS 2016 .784 .698 .190 .712 .566 .427 .603
ELD 2016 .764 .712 .155 .705 .534 .524 .563
DCL 2016 .823 .741 .141 .735 .624 .506 .653
DHS 2016 .827 .774 .128 .750 .628 .578 .658
LEGS 2015 .734 .683 .196 .657 .495 .430 .533
MCDL 2015 .731 .677 .181 .650 .505 .417 .528
MDF 2015 .787 .721 .159 .679 .563 .460 .585

Related Citations (BibTeX)

benchmarks

% ECSSD
@inproceedings{yan2013hierarchical,
  title={Hierarchical saliency detection},
  author={Yan, Qiong and Xu, Li and Shi, Jianping and Jia, Jiaya},
  booktitle={Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition},
  pages={1155--1162},
  year={2013}
}
% PASCAL-S
@inproceedings{li2014secrets,
  title={The secrets of salient object segmentation},
  author={Li, Yin and Hou, Xiaodi and Koch, Christof and Rehg, James M and Yuille, Alan L},
  booktitle={Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition},
  pages={280--287},
  year={2014}
}
% DUT-OMRON
@inproceedings{yang2013saliency,
  title={Saliency detection via graph-based manifold ranking},
  author={Yang, Chuan and Zhang, Lihe and Lu, Huchuan and Ruan, Xiang and Yang, Ming-Hsuan},
  booktitle={Proceedings of the IEEE conference on computer vision and pattern recognition},
  pages={3166--3173},
  year={2013}
}
% HKU-IS
@inproceedings{li2015visual,
  title={Visual saliency based on multiscale deep features},
  author={Li, Guanbin and Yu, Yizhou},
  booktitle={Proceedings of the IEEE conference on computer vision and pattern recognition},
  pages={5455--5463},
  year={2015}
}
% DUTS
@inproceedings{wang2017,
  title={Learning to Detect Salient Objects with Image-level Supervision},
  author={Wang, Lijun and Lu, Huchuan and Wang, Yifan and Feng, Mengyang and Wang, Dong, and Yin, Baocai and Ruan, Xiang}, 
  booktitle={CVPR},
  year={2017}
}
% SOD
@inproceedings{movahedi2010design,
  title={Design and perceptual validation of performance measures for salient object segmentation},
  author={Movahedi, Vida and Elder, James H},
  booktitle={Computer Vision and Pattern Recognition Workshops (CVPRW), 2010 IEEE Computer Society Conference on},
  pages={49--56},
  year={2010},
  organization={IEEE}
}
% SOS
@inproceedings{zhang2015salient,
  title={Salient object subitizing},
  author={Zhang, Jianming and Ma, Shugao and Sameki, Mehrnoosh and Sclaroff, Stan and Betke, Margrit and Lin, Zhe and Shen, Xiaohui and Price, Brian and Mech, Radomir},
  booktitle={Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition},
  pages={4045--4054},
  year={2015}
}
% THUR
@article{cheng2014salientshape,
  title={Salientshape: Group saliency in image collections},
  author={Cheng, Ming-Ming and Mitra, Niloy J and Huang, Xiaolei and Hu, Shi-Min},
  journal={The Visual Computer},
  volume={30},
  number={4},
  pages={443--453},
  year={2014},
  publisher={Springer}
}
% MSRA10K
@article{ChengPAMI,
  author = {Ming-Ming Cheng and Niloy J. Mitra and Xiaolei Huang and Philip H. S. Torr and Shi-Min Hu},
  title = {Global Contrast based Salient Region Detection},
  year  = {2015},
  journal= {IEEE TPAMI},
  volume={37}, 
  number={3}, 
  pages={569--582}, 
  doi = {10.1109/TPAMI.2014.2345401},
}
% SED
@inproceedings{alpert2007image,
  title={Image segmentation by probabilistic bottom-up aggregation and cue integration},
  author={Alpert, Sharon and Galun, Meirav and Basri, Ronen and Brandt, Achi},
  booktitle={Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition},
  pages={1--8},
  year={2007},
  organization={IEEE}
}

algorithms

%MLMSNet
@InProceedings{WuRunMin_2019_CVPR,
   author = {Wu, Runmin and Feng, Mengyang and Guan, Wenlong and Wang, Dong and Lu, Huchuan and Ding, Errui},
   title = {A Mutual Learning Method for Salient Object Detection with intertwined Multi-Supervision},
   booktitle = CVPR,
   year = {2019}
}
%CPD
@InProceedings{Wu_2019_CVPR,
   author = {Wu, Zhe and Su, Li and Huang, Qingming},
   title = {Cascaded Partial Decoder for Fast and Accurate Salient Object Detection},
   booktitle = CVPR,
   year = {2019}
}
%BASNet
@InProceedings{Qin_2019_CVPR,
   author = {Qin, Xuebin and Zhang, Zichen and Huang, Chenyang and Gao, Chao and Dehghan, Masood and Jagersand, Martin},
   title = {BASNet: Boundary-Aware Salient Object Detection},
   booktitle = CVPR,
   year = {2019}
}
%PoolNet
@inproceedings{Liu2019PoolSal,
   title={A Simple Pooling-Based Design for Real-Time Salient Object   Detection},
   author={Liu, Jiang-Jiang and Hou, Qibin and Cheng, Ming-Ming and Feng, Jiashi and Jiang, Jianmin},
   booktitle = CVPR,
   year = {2019},
}
%AFNet
@InProceedings{Feng_2019_CVPR,
   author = {Feng, Mengyang and Lu, Huchuan and Ding, Errui},
   title = {Attentive Feedback Network for Boundary-aware Salient Object Detection},
   booktitle = CVPR,
   year = {2019}
}
% BMPM
@inproceedings{zhang2018bi,
  title={A Bi-Directional Message Passing Model for Salient Object Detection},
  author={Zhang, Lu and Dai, Ju and Lu, Huchuan and He, You and Wang, Gang},
  booktitle={Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition},
  pages={1741--1750},
  year={2018}
}
% DGRL
@inproceedings{wang2018detect,
  title={Detect Globally, Refine Locally: A Novel Approach to Saliency Detection},
  author={Wang, Tiantian and Zhang, Lihe and Wang, Shuo and Lu, Huchuan and Yang, Gang and Ruan, Xiang and Borji, Ali},
  booktitle={Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition},
  pages={3127--3135},
  year={2018}
}
% PAGR
@inproceedings{zhang2018progressive,
  title={Progressive Attention Guided Recurrent Network for Salient Object Detection},
  author={Zhang, Xiaoning and Wang, Tiantian and Qi, Jinqing and Lu, Huchuan and Wang, Gang},
  booktitle={Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition},
  pages={714--722},
  year={2018}
}
% RAS
@inproceedings{chen2018eccv, 
  author={Chen, Shuhan and Tan, Xiuli and Wang, Ben and Hu, Xuelong}, 
  booktitle={European Conference on Computer Vision}, 
  title={Reverse Attention for Salient Object Detection}, 
  year={2018}
} 
% PiCANet
@inproceedings{liu2018picanet,
  title={PiCANet: Learning Pixel-wise Contextual Attention for Saliency Detection},
  author={Liu, Nian and Han, Junwei and Yang, Ming-Hsuan},
  booktitle={Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition},
  pages={3089--3098},
  year={2018}
}
% R3Net
@inproceedings{deng18r,
  author = {Deng, Zijun and Hu, Xiaowei and Zhu, Lei and Xu, Xuemiao and Qin, Jing and Han, Guoqiang and Heng, Pheng-Ann},
  title = {R$^{3}${N}et: Recurrent Residual Refinement Network for Saliency Detection},
  booktitle = {IJCAI},
  year = {2018}
}
% Amulet
@inproceedings{zhang2017amulet,
  title={Amulet: Aggregating multi-level convolutional features for salient object detection},
  author={Zhang, Pingping and Wang, Dong and Lu, Huchuan and Wang, Hongyu and Ruan, Xiang},
  booktitle={Proceedings of the IEEE International Conference on Computer Vision},
  pages={202--211},
  year={2017}
}
% UCF
@inproceedings{zhang2017learning,
  title={Learning uncertain convolutional features for accurate saliency detection},
  author={Zhang, Pingping and Wang, Dong and Lu, Huchuan and Wang, Hongyu and Yin, Baocai},
  booktitle={Computer Vision (ICCV), 2017 IEEE International Conference on},
  pages={212--221},
  year={2017},
  organization={IEEE}
}
% SRM
@inproceedings{wang2017stagewise,
  title={A stagewise refinement model for detecting salient objects in images},
  author={Wang, Tiantian and Borji, Ali and Zhang, Lihe and Zhang, Pingping and Lu, Huchuan},
  booktitle={Proceedings of the IEEE International Conference on Computer Vision},
  pages={4019--4028},
  year={2017}
}
% MSRNet
@inproceedings{li2017instance,
  title={Instance-level salient object segmentation},
  author={Li, Guanbin and Xie, Yuan and Lin, Liang and Yu, Yizhou},
  booktitle={Computer Vision and Pattern Recognition (CVPR), 2017 IEEE Conference on},
  pages={247--256},
  year={2017},
  organization={IEEE}
}
% NLDF
@inproceedings{luo2017non,
  title={Non-local Deep Features for Salient Object Detection.},
  author={Luo, Zhiming and Mishra, Akshaya Kumar and Achkar, Andrew and Eichel, Justin A and Li, Shaozi and Jodoin, Pierre-Marc},
  booktitle={CVPR},
  volume={2},
  number={6},
  pages={7},
  year={2017}
}
% DSS
@inproceedings{hou2017deeply,
  title={Deeply supervised salient object detection with short connections},
  author={Hou, Qibin and Cheng, Ming-Ming and Hu, Xiaowei and Borji, Ali and Tu, Zhuowen and Torr, Philip},
  booktitle={2017 IEEE Conference on Computer Vision and Pattern Recognition (CVPR)},
  pages={5300--5309},
  year={2017},
  organization={IEEE}
}
% RFCN
@inproceedings{wang2016saliency,
  title={Saliency detection with recurrent fully convolutional networks},
  author={Wang, Linzhao and Wang, Lijun and Lu, Huchuan and Zhang, Pingping and Ruan, Xiang},
  booktitle={European Conference on Computer Vision},
  pages={825--841},
  year={2016},
  organization={Springer}
}
% SCSD-HS
@inproceedings{kim2016shape,
  title={A shape preserving approach for salient object detection using convolutional neural networks},
  author={Kim, Jongpil and Pavlovic, Vladimir},
  booktitle={Pattern Recognition (ICPR), 2016 23rd International Conference on},
  pages={609--614},
  year={2016},
  organization={IEEE}
}
% DS
@article{li2016deepsaliency,
  title={Deepsaliency: Multi-task deep neural network model for salient object detection},
  author={Li, Xi and Zhao, Liming and Wei, Lina and Yang, Ming-Hsuan and Wu, Fei and Zhuang, Yueting and Ling, Haibin and Wang, Jingdong},
  journal={IEEE Transactions on Image Processing},
  volume={25},
  number={8},
  pages={3919--3930},
  year={2016},
  publisher={IEEE}
}
% ELD
@inproceedings{lee2016deep,
  title={Deep saliency with encoded low level distance map and high level features},
  author={Lee, Gayoung and Tai, Yu-Wing and Kim, Junmo},
  booktitle={Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition},
  pages={660--668},
  year={2016}
}
% DCL
@inproceedings{li2016deep,
  title={Deep contrast learning for salient object detection},
  author={Li, Guanbin and Yu, Yizhou},
  booktitle={Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition},
  pages={478--487},
  year={2016}
}
% DHSNet
@inproceedings{liu2016dhsnet,
  title={Dhsnet: Deep hierarchical saliency network for salient object detection},
  author={Liu, Nian and Han, Junwei},
  booktitle={2016 IEEE Conference on Computer Vision and Pattern Recognition (CVPR)},
  pages={678--686},
  year={2016},
  organization={IEEE}
}
% LEGS
@inproceedings{wang2015deep,
  title={Deep networks for saliency detection via local estimation and global search},
  author={Wang, Lijun and Lu, Huchuan and Ruan, Xiang and Yang, Ming-Hsuan},
  booktitle={Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition},
  pages={3183--3192},
  year={2015}
}
% MCDL
@inproceedings{zhao2015saliency,
  title={Saliency detection by multi-context deep learning},
  author={Zhao, Rui and Ouyang, Wanli and Li, Hongsheng and Wang, Xiaogang},
  booktitle={Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition},
  pages={1265--1274},
  year={2015}
}
% MDF
@inproceedings{li2015visual,
  title={Visual saliency based on multiscale deep features},
  author={Li, Guanbin and Yu, Yizhou},
  booktitle={Proceedings of the IEEE conference on computer vision and pattern recognition},
  pages={5455--5463},
  year={2015}
}

TODO

  • add scores in Table
  • add pre-computed saliency maps
  • add pre-computed .mat files
  • add evaluation codes

Cite This Repo

If you find this code useful in your research, please consider citing:

@article{sal_eval_toolbox,
    Author = {Mengyang Feng},
    Title = {Evaluation Toolbox for Salient Object Detection.},
    Journal = {https://github.com/ArcherFMY/sal_eval_toolbox},
    Year = {2018}
}