Advancing Image Understanding in Poor Visibility Environments: A Collective Benchmark Study

Wenhan Yang; Ye Yuan; Wenqi Ren; Jiaying Liu; Walter J. Scheirer; Zhangyang Wang; Taiheng Zhang; Qiaoyong Zhong; Di Xie; Shiliang Pu; Yuqiang Zheng; Yanyun Qu; Yuhong Xie; Liang Chen; Zhonghao Li; Chen Hong; Hao Jiang; Siyuan Yang; Yan Liu; Xiaochao Qu; Pengfei Wan; Shuai Zheng; Minhui Zhong; Taiyi Su; Lingzhi He; Yandong Guo; Yao Zhao; Zhenfeng Zhu; Jinxiu Liang; Jingwen Wang; Tianyi Chen; Yuhui Quan; Yong Xu; Bo Liu; Xin Liu; Qi Sun; Tingyu Lin; Xiaochuan Li; Feng Lu; Lin Gu; Shengdi Zhou; Cong Cao; Shifeng Zhang; Cheng Chi; Chubing Zhuang; Zhen Lei; Stan Z. Li; Shizheng Wang; Ruizhe Liu; Dong Yi; Zheming Zuo; Jianning Chi; Huan Wang; Kai Wang; Yixiu Liu; Xingyu Gao; Zhenyu Chen; Chang Guo; Yongzhou Li; Huicai Zhong; Jing Huang; Heng Guo; Jianfei Yang; Wenjuan Liao; Jiangang Yang; Liguo Zhou; Mingyue Feng; Likun Qin

doi:10.1109/TIP.2020.2981922

Advancing Image Understanding in Poor Visibility Environments: A Collective Benchmark Study

Wenhan Yang
, Ye Yuan
, Wenqi Ren
, Jiaying Liu
, Walter J. Scheirer^*
, Zhangyang Wang
, Taiheng Zhang
, Qiaoyong Zhong
, Di Xie
, Shiliang Pu
, Yuqiang Zheng
, Yanyun Qu
, Yuhong Xie
, Liang Chen
, Zhonghao Li
, Chen Hong
, Hao Jiang
, Siyuan Yang
, Yan Liu
, Xiaochao Qu

Pengfei Wan, Shuai Zheng, Minhui Zhong, Taiyi Su, Lingzhi He, Yandong Guo, Yao Zhao, Zhenfeng Zhu, Jinxiu Liang, Jingwen Wang, Tianyi Chen, Yuhui Quan, Yong Xu, Bo Liu, Xin Liu, Qi Sun, Tingyu Lin, Xiaochuan Li, Feng Lu, Lin Gu, Shengdi Zhou, Cong Cao, Shifeng Zhang, Cheng Chi, Chubing Zhuang, Zhen Lei, Stan Z. Li, Shizheng Wang, Ruizhe Liu, Dong Yi, Zheming Zuo, Jianning Chi, Huan Wang, Kai Wang, Yixiu Liu, Xingyu Gao, Zhenyu Chen, Chang Guo, Yongzhou Li, Huicai Zhong, Jing Huang, Heng Guo, Jianfei Yang, Wenjuan Liao, Jiangang Yang, Liguo Zhou, Mingyue Feng, Likun Qin

^*此作品的通讯作者

计算机学院

Peking University
Texas A&M University
CAS - Institute of Information Engineering
University of Notre Dame
Zhejiang University
Hangzhou Hikvision Digital Technology Co. Ltd.
Xiamen University
Meitu Inc.
Beijing Jiaotong University
Tongji University
Xpeng Motors
South China University of Technology
Tencent
Beihang University
RIKEN
Tianjin University
CAS - Institute of Automation
University of Chinese Academy of Sciences
Chinese Academy of Sciences
Westlake University
Sunway-AI Co., Ltd.
Winsense
Durham University
Northeastern University China
State Grid Corporation of China
Nanyang Technological University
Australian National University
Technical University of Munich

科研成果: 期刊稿件 › 文章 › 同行评审

326 引用（Scopus）

摘要

Existing enhancement methods are empirically expected to help the high-level end computer vision task: however, that is observed to not always be the case in practice. We focus on object or face detection in poor visibility enhancements caused by bad weathers (haze, rain) and low light conditions. To provide a more thorough examination and fair comparison, we introduce three benchmark sets collected in real-world hazy, rainy, and low-light conditions, respectively, with annotated objects/faces. We launched the UG²⁺ challenge Track 2 competition in IEEE CVPR 2019, aiming to evoke a comprehensive discussion and exploration about whether and how low-level vision techniques can benefit the high-level automatic visual recognition in various scenarios. To our best knowledge, this is the first and currently largest effort of its kind. Baseline results by cascading existing enhancement and detection models are reported, indicating the highly challenging nature of our new data as well as the large room for further technical innovations. Thanks to a large participation from the research community, we are able to analyze representative team solutions, striving to better identify the strengths and limitations of existing mindsets as well as the future directions.

源语言	英语
文章编号	9049390
页（从-至）	5737-5752
页数	16
期刊	IEEE Transactions on Image Processing
卷	29
DOI	https://doi.org/10.1109/TIP.2020.2981922
出版状态	已出版 - 2020

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10.1109/TIP.2020.2981922

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Yang, W., Yuan, Y., Ren, W., Liu, J., Scheirer, W. J., Wang, Z., Zhang, T., Zhong, Q., Xie, D., Pu, S., Zheng, Y., Qu, Y., Xie, Y., Chen, L., Li, Z., Hong, C., Jiang, H., Yang, S., Liu, Y., ... Qin, L. (2020). Advancing Image Understanding in Poor Visibility Environments: A Collective Benchmark Study. IEEE Transactions on Image Processing, 29, 5737-5752. 文章 9049390. https://doi.org/10.1109/TIP.2020.2981922

@article{ba5c2bb8bc594d6799d58dcd358800b9,

title = "Advancing Image Understanding in Poor Visibility Environments: A Collective Benchmark Study",

abstract = "Existing enhancement methods are empirically expected to help the high-level end computer vision task: however, that is observed to not always be the case in practice. We focus on object or face detection in poor visibility enhancements caused by bad weathers (haze, rain) and low light conditions. To provide a more thorough examination and fair comparison, we introduce three benchmark sets collected in real-world hazy, rainy, and low-light conditions, respectively, with annotated objects/faces. We launched the UG2+ challenge Track 2 competition in IEEE CVPR 2019, aiming to evoke a comprehensive discussion and exploration about whether and how low-level vision techniques can benefit the high-level automatic visual recognition in various scenarios. To our best knowledge, this is the first and currently largest effort of its kind. Baseline results by cascading existing enhancement and detection models are reported, indicating the highly challenging nature of our new data as well as the large room for further technical innovations. Thanks to a large participation from the research community, we are able to analyze representative team solutions, striving to better identify the strengths and limitations of existing mindsets as well as the future directions.",

keywords = "Poor visibility environment, face detection, haze, low-light conditions, object detection, rain",

author = "Wenhan Yang and Ye Yuan and Wenqi Ren and Jiaying Liu and Scheirer, \{Walter J.\} and Zhangyang Wang and Taiheng Zhang and Qiaoyong Zhong and Di Xie and Shiliang Pu and Yuqiang Zheng and Yanyun Qu and Yuhong Xie and Liang Chen and Zhonghao Li and Chen Hong and Hao Jiang and Siyuan Yang and Yan Liu and Xiaochao Qu and Pengfei Wan and Shuai Zheng and Minhui Zhong and Taiyi Su and Lingzhi He and Yandong Guo and Yao Zhao and Zhenfeng Zhu and Jinxiu Liang and Jingwen Wang and Tianyi Chen and Yuhui Quan and Yong Xu and Bo Liu and Xin Liu and Qi Sun and Tingyu Lin and Xiaochuan Li and Feng Lu and Lin Gu and Shengdi Zhou and Cong Cao and Shifeng Zhang and Cheng Chi and Chubing Zhuang and Zhen Lei and Li, \{Stan Z.\} and Shizheng Wang and Ruizhe Liu and Dong Yi and Zheming Zuo and Jianning Chi and Huan Wang and Kai Wang and Yixiu Liu and Xingyu Gao and Zhenyu Chen and Chang Guo and Yongzhou Li and Huicai Zhong and Jing Huang and Heng Guo and Jianfei Yang and Wenjuan Liao and Jiangang Yang and Liguo Zhou and Mingyue Feng and Likun Qin",

note = "Publisher Copyright: {\textcopyright} 2019 IEEE.",

year = "2020",

doi = "10.1109/TIP.2020.2981922",

language = "英语",

volume = "29",

pages = "5737--5752",

journal = "IEEE Transactions on Image Processing",

issn = "1057-7149",

publisher = "Institute of Electrical and Electronics Engineers Inc.",

}

Yang, W, Yuan, Y, Ren, W, Liu, J, Scheirer, WJ, Wang, Z, Zhang, T, Zhong, Q, Xie, D, Pu, S, Zheng, Y, Qu, Y, Xie, Y, Chen, L, Li, Z, Hong, C, Jiang, H, Yang, S, Liu, Y, Qu, X, Wan, P, Zheng, S, Zhong, M, Su, T, He, L, Guo, Y, Zhao, Y, Zhu, Z, Liang, J, Wang, J, Chen, T, Quan, Y, Xu, Y, Liu, B, Liu, X, Sun, Q, Lin, T, Li, X, Lu, F, Gu, L, Zhou, S, Cao, C, Zhang, S, Chi, C, Zhuang, C, Lei, Z, Li, SZ, Wang, S, Liu, R, Yi, D, Zuo, Z, Chi, J, Wang, H, Wang, K, Liu, Y, Gao, X, Chen, Z, Guo, C, Li, Y, Zhong, H, Huang, J, Guo, H, Yang, J, Liao, W, Yang, J, Zhou, L, Feng, M & Qin, L 2020, 'Advancing Image Understanding in Poor Visibility Environments: A Collective Benchmark Study', IEEE Transactions on Image Processing, 卷 29, 9049390, 页码 5737-5752. https://doi.org/10.1109/TIP.2020.2981922

TY - JOUR

T1 - Advancing Image Understanding in Poor Visibility Environments

T2 - A Collective Benchmark Study

AU - Yang, Wenhan

AU - Yuan, Ye

AU - Ren, Wenqi

AU - Liu, Jiaying

AU - Scheirer, Walter J.

AU - Wang, Zhangyang

AU - Zhang, Taiheng

AU - Zhong, Qiaoyong

AU - Xie, Di

AU - Pu, Shiliang

AU - Zheng, Yuqiang

AU - Qu, Yanyun

AU - Xie, Yuhong

AU - Chen, Liang

AU - Li, Zhonghao

AU - Hong, Chen

AU - Jiang, Hao

AU - Yang, Siyuan

AU - Liu, Yan

AU - Qu, Xiaochao

AU - Wan, Pengfei

AU - Zheng, Shuai

AU - Zhong, Minhui

AU - Su, Taiyi

AU - He, Lingzhi

AU - Guo, Yandong

AU - Zhao, Yao

AU - Zhu, Zhenfeng

AU - Liang, Jinxiu

AU - Wang, Jingwen

AU - Chen, Tianyi

AU - Quan, Yuhui

AU - Xu, Yong

AU - Liu, Bo

AU - Liu, Xin

AU - Sun, Qi

AU - Lin, Tingyu

AU - Li, Xiaochuan

AU - Lu, Feng

AU - Gu, Lin

AU - Zhou, Shengdi

AU - Cao, Cong

AU - Zhang, Shifeng

AU - Chi, Cheng

AU - Zhuang, Chubing

AU - Lei, Zhen

AU - Li, Stan Z.

AU - Wang, Shizheng

AU - Liu, Ruizhe

AU - Yi, Dong

AU - Zuo, Zheming

AU - Chi, Jianning

AU - Wang, Huan

AU - Wang, Kai

AU - Liu, Yixiu

AU - Gao, Xingyu

AU - Chen, Zhenyu

AU - Guo, Chang

AU - Li, Yongzhou

AU - Zhong, Huicai

AU - Huang, Jing

AU - Guo, Heng

AU - Yang, Jianfei

AU - Liao, Wenjuan

AU - Yang, Jiangang

AU - Zhou, Liguo

AU - Feng, Mingyue

AU - Qin, Likun

PY - 2020

Y1 - 2020

N2 - Existing enhancement methods are empirically expected to help the high-level end computer vision task: however, that is observed to not always be the case in practice. We focus on object or face detection in poor visibility enhancements caused by bad weathers (haze, rain) and low light conditions. To provide a more thorough examination and fair comparison, we introduce three benchmark sets collected in real-world hazy, rainy, and low-light conditions, respectively, with annotated objects/faces. We launched the UG2+ challenge Track 2 competition in IEEE CVPR 2019, aiming to evoke a comprehensive discussion and exploration about whether and how low-level vision techniques can benefit the high-level automatic visual recognition in various scenarios. To our best knowledge, this is the first and currently largest effort of its kind. Baseline results by cascading existing enhancement and detection models are reported, indicating the highly challenging nature of our new data as well as the large room for further technical innovations. Thanks to a large participation from the research community, we are able to analyze representative team solutions, striving to better identify the strengths and limitations of existing mindsets as well as the future directions.

AB - Existing enhancement methods are empirically expected to help the high-level end computer vision task: however, that is observed to not always be the case in practice. We focus on object or face detection in poor visibility enhancements caused by bad weathers (haze, rain) and low light conditions. To provide a more thorough examination and fair comparison, we introduce three benchmark sets collected in real-world hazy, rainy, and low-light conditions, respectively, with annotated objects/faces. We launched the UG2+ challenge Track 2 competition in IEEE CVPR 2019, aiming to evoke a comprehensive discussion and exploration about whether and how low-level vision techniques can benefit the high-level automatic visual recognition in various scenarios. To our best knowledge, this is the first and currently largest effort of its kind. Baseline results by cascading existing enhancement and detection models are reported, indicating the highly challenging nature of our new data as well as the large room for further technical innovations. Thanks to a large participation from the research community, we are able to analyze representative team solutions, striving to better identify the strengths and limitations of existing mindsets as well as the future directions.

KW - Poor visibility environment

KW - face detection

KW - haze

KW - low-light conditions

KW - object detection

KW - rain

UR - https://www.scopus.com/pages/publications/85084134309

U2 - 10.1109/TIP.2020.2981922

DO - 10.1109/TIP.2020.2981922

M3 - 文章

AN - SCOPUS:85084134309

SN - 1057-7149

VL - 29

SP - 5737

EP - 5752

JO - IEEE Transactions on Image Processing

JF - IEEE Transactions on Image Processing

M1 - 9049390

ER -

Advancing Image Understanding in Poor Visibility Environments: A Collective Benchmark Study

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