The Robust Semantic Segmentation UNCV2023 Challenge Results

Xuanlong Yu; Yi Zuo; Zitao Wang; Xiaowen Zhang; Jiaxuan Zhao; Yuting Yang; Licheng Jiao; Rui Peng; Xinyi Wang; Junpei Zhang; Kexin Zhang; Fang Liu; Roberto Alcover-Couso; Juan C. SanMiguel; Marcos Escudero-Viñolo; Hanlin Tian; Kenta Matsui; Tianhao Wang; Fahmy Adan; Zhitong Gao; Xuming He; Quentin Bouniot; Hossein Moghaddam; Shyam Nandan Rai; Fabio Cermelli; Carlo Masone; Andrea Pilzer; Elisa Ricci; Andrei Bursuc; Arno Solin; Martin Trapp; Rui Li; Angela Yao; Wenlong Chen; Ivor Simpson; Neill D. F. Campbell; Gianni Franchi

doi:10.1109/ICCVW60793.2023.00496

The Robust Semantic Segmentation UNCV2023 Challenge Results

Xuanlong Yu, Yi Zuo, Zitao Wang, Xiaowen Zhang, Jiaxuan Zhao, Yuting Yang, Licheng Jiao, Rui Peng, Xinyi Wang, Junpei Zhang, Kexin Zhang, Fang Liu, Roberto Alcover-Couso, Juan C. SanMiguel, Marcos Escudero-Viñolo, Hanlin Tian, Kenta Matsui, Tianhao Wang, Fahmy Adan, Zhitong GaoXuming He, Quentin Bouniot, Hossein Moghaddam, Shyam Nandan Rai, Fabio Cermelli, Carlo Masone, Andrea Pilzer, Elisa Ricci, Andrei Bursuc, Arno Solin, Martin Trapp, Rui Li, Angela Yao, Wenlong Chen, Ivor Simpson, Neill D. F. Campbell, Gianni Franchi

Research output: Chapter in Book/Report/Conference proceeding › Conference article in proceedings › Scientific › peer-review

1 Citation (Scopus)

Abstract

This paper outlines the winning solutions employed in addressing the MUAD uncertainty quantification challenge held at ICCV 2023. The challenge was centered around semantic segmentation in urban environments, with a particular focus on natural adversarial scenarios. The report presents the results of 19 submitted entries, with numerous techniques drawing inspiration from cutting-edge uncertainty quantification methodologies presented at prominent conferences in the fields of computer vision and machine learning and journals over the past few years. Within this document, the challenge is introduced, shedding light on its purpose and objectives, which primarily revolved around enhancing the robustness of semantic segmentation in urban scenes under varying natural adversarial conditions. The report then delves into the top-performing solutions. Moreover, the document aims to provide a comprehensive overview of the diverse solutions deployed by all participants. By doing so, it seeks to offer readers a deeper insight into the array of strategies that can be leveraged to effectively handle the inherent uncertainties associated with autonomous driving and semantic segmentation, especially within urban environments.

Original language	English
Title of host publication	2023 IEEE/CVF International Conference on Computer Vision Workshops (ICCVW)
Publisher	IEEE
Pages	4620-4630
ISBN (Print)	979-8-3503-0744-3
DOIs	https://doi.org/10.1109/ICCVW60793.2023.00496
Publication status	Published - 2023
MoE publication type	A4 Conference publication
Event	IEEE International Conference on Computer Vision Workshops - Paris, France Duration: 2 Oct 2023 → 6 Oct 2023

Publication series

Name	IEEE International Conference on Computer Vision Workshops
Publisher	IEEE
Volume	2023
ISSN (Electronic)	2473-9944

Conference

Conference	IEEE International Conference on Computer Vision Workshops
Abbreviated title	ICCVW
Country/Territory	France
City	Paris
Period	02/10/2023 → 06/10/2023

Access to Document

10.1109/ICCVW60793.2023.00496

https://openaccess.thecvf.com/content/ICCV2023W/UnCV/papers/Yu_The_Robust_Semantic_Segmentation_UNCV2023_Challenge_Results_ICCVW_2023_paper.pdf

Cite this

Yu, X., Zuo, Y., Wang, Z., Zhang, X., Zhao, J., Yang, Y., Jiao, L., Peng, R., Wang, X., Zhang, J., Zhang, K., Liu, F., Alcover-Couso, R., SanMiguel, J. C., Escudero-Viñolo, M., Tian, H., Matsui, K., Wang, T., Adan, F., ... Franchi, G. (2023). The Robust Semantic Segmentation UNCV2023 Challenge Results. In 2023 IEEE/CVF International Conference on Computer Vision Workshops (ICCVW) (pp. 4620-4630). (IEEE International Conference on Computer Vision Workshops; Vol. 2023). IEEE. https://doi.org/10.1109/ICCVW60793.2023.00496

@inproceedings{6a9d02786a1a4c688576c04dbbe13bdd,

title = "The Robust Semantic Segmentation UNCV2023 Challenge Results",

abstract = "This paper outlines the winning solutions employed in addressing the MUAD uncertainty quantification challenge held at ICCV 2023. The challenge was centered around semantic segmentation in urban environments, with a particular focus on natural adversarial scenarios. The report presents the results of 19 submitted entries, with numerous techniques drawing inspiration from cutting-edge uncertainty quantification methodologies presented at prominent conferences in the fields of computer vision and machine learning and journals over the past few years. Within this document, the challenge is introduced, shedding light on its purpose and objectives, which primarily revolved around enhancing the robustness of semantic segmentation in urban scenes under varying natural adversarial conditions. The report then delves into the top-performing solutions. Moreover, the document aims to provide a comprehensive overview of the diverse solutions deployed by all participants. By doing so, it seeks to offer readers a deeper insight into the array of strategies that can be leveraged to effectively handle the inherent uncertainties associated with autonomous driving and semantic segmentation, especially within urban environments.",

author = "Xuanlong Yu and Yi Zuo and Zitao Wang and Xiaowen Zhang and Jiaxuan Zhao and Yuting Yang and Licheng Jiao and Rui Peng and Xinyi Wang and Junpei Zhang and Kexin Zhang and Fang Liu and Roberto Alcover-Couso and SanMiguel, {Juan C.} and Marcos Escudero-Vi{\~n}olo and Hanlin Tian and Kenta Matsui and Tianhao Wang and Fahmy Adan and Zhitong Gao and Xuming He and Quentin Bouniot and Hossein Moghaddam and Rai, {Shyam Nandan} and Fabio Cermelli and Carlo Masone and Andrea Pilzer and Elisa Ricci and Andrei Bursuc and Arno Solin and Martin Trapp and Rui Li and Angela Yao and Wenlong Chen and Ivor Simpson and Campbell, {Neill D. F.} and Gianni Franchi",

year = "2023",

doi = "10.1109/ICCVW60793.2023.00496",

language = "English",

isbn = "979-8-3503-0744-3",

series = "IEEE International Conference on Computer Vision Workshops",

publisher = "IEEE",

pages = "4620--4630",

booktitle = "2023 IEEE/CVF International Conference on Computer Vision Workshops (ICCVW)",

address = "United States",

note = "IEEE International Conference on Computer Vision Workshops, ICCVW ; Conference date: 02-10-2023 Through 06-10-2023",

}

Yu, X, Zuo, Y, Wang, Z, Zhang, X, Zhao, J, Yang, Y, Jiao, L, Peng, R, Wang, X, Zhang, J, Zhang, K, Liu, F, Alcover-Couso, R, SanMiguel, JC, Escudero-Viñolo, M, Tian, H, Matsui, K, Wang, T, Adan, F, Gao, Z, He, X, Bouniot, Q, Moghaddam, H, Rai, SN, Cermelli, F, Masone, C, Pilzer, A, Ricci, E, Bursuc, A, Solin, A , Trapp, M , Li, R, Yao, A, Chen, W, Simpson, I, Campbell, NDF & Franchi, G 2023, The Robust Semantic Segmentation UNCV2023 Challenge Results. in 2023 IEEE/CVF International Conference on Computer Vision Workshops (ICCVW). IEEE International Conference on Computer Vision Workshops, vol. 2023, IEEE, pp. 4620-4630, IEEE International Conference on Computer Vision Workshops, Paris, France, 02/10/2023. https://doi.org/10.1109/ICCVW60793.2023.00496

The Robust Semantic Segmentation UNCV2023 Challenge Results. / Yu, Xuanlong; Zuo, Yi; Wang, Zitao et al.
2023 IEEE/CVF International Conference on Computer Vision Workshops (ICCVW). IEEE, 2023. p. 4620-4630 (IEEE International Conference on Computer Vision Workshops; Vol. 2023).

Research output: Chapter in Book/Report/Conference proceeding › Conference article in proceedings › Scientific › peer-review

TY - GEN

T1 - The Robust Semantic Segmentation UNCV2023 Challenge Results

AU - Yu, Xuanlong

AU - Zuo, Yi

AU - Wang, Zitao

AU - Zhang, Xiaowen

AU - Zhao, Jiaxuan

AU - Yang, Yuting

AU - Jiao, Licheng

AU - Peng, Rui

AU - Wang, Xinyi

AU - Zhang, Junpei

AU - Zhang, Kexin

AU - Liu, Fang

AU - Alcover-Couso, Roberto

AU - SanMiguel, Juan C.

AU - Escudero-Viñolo, Marcos

AU - Tian, Hanlin

AU - Matsui, Kenta

AU - Wang, Tianhao

AU - Adan, Fahmy

AU - Gao, Zhitong

AU - He, Xuming

AU - Bouniot, Quentin

AU - Moghaddam, Hossein

AU - Rai, Shyam Nandan

AU - Cermelli, Fabio

AU - Masone, Carlo

AU - Pilzer, Andrea

AU - Ricci, Elisa

AU - Bursuc, Andrei

AU - Solin, Arno

AU - Trapp, Martin

AU - Li, Rui

AU - Yao, Angela

AU - Chen, Wenlong

AU - Simpson, Ivor

AU - Campbell, Neill D. F.

AU - Franchi, Gianni

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N2 - This paper outlines the winning solutions employed in addressing the MUAD uncertainty quantification challenge held at ICCV 2023. The challenge was centered around semantic segmentation in urban environments, with a particular focus on natural adversarial scenarios. The report presents the results of 19 submitted entries, with numerous techniques drawing inspiration from cutting-edge uncertainty quantification methodologies presented at prominent conferences in the fields of computer vision and machine learning and journals over the past few years. Within this document, the challenge is introduced, shedding light on its purpose and objectives, which primarily revolved around enhancing the robustness of semantic segmentation in urban scenes under varying natural adversarial conditions. The report then delves into the top-performing solutions. Moreover, the document aims to provide a comprehensive overview of the diverse solutions deployed by all participants. By doing so, it seeks to offer readers a deeper insight into the array of strategies that can be leveraged to effectively handle the inherent uncertainties associated with autonomous driving and semantic segmentation, especially within urban environments.

AB - This paper outlines the winning solutions employed in addressing the MUAD uncertainty quantification challenge held at ICCV 2023. The challenge was centered around semantic segmentation in urban environments, with a particular focus on natural adversarial scenarios. The report presents the results of 19 submitted entries, with numerous techniques drawing inspiration from cutting-edge uncertainty quantification methodologies presented at prominent conferences in the fields of computer vision and machine learning and journals over the past few years. Within this document, the challenge is introduced, shedding light on its purpose and objectives, which primarily revolved around enhancing the robustness of semantic segmentation in urban scenes under varying natural adversarial conditions. The report then delves into the top-performing solutions. Moreover, the document aims to provide a comprehensive overview of the diverse solutions deployed by all participants. By doing so, it seeks to offer readers a deeper insight into the array of strategies that can be leveraged to effectively handle the inherent uncertainties associated with autonomous driving and semantic segmentation, especially within urban environments.

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DO - 10.1109/ICCVW60793.2023.00496

M3 - Conference article in proceedings

SN - 979-8-3503-0744-3

T3 - IEEE International Conference on Computer Vision Workshops

SP - 4620

EP - 4630

BT - 2023 IEEE/CVF International Conference on Computer Vision Workshops (ICCVW)

PB - IEEE

T2 - IEEE International Conference on Computer Vision Workshops

Y2 - 2 October 2023 through 6 October 2023

ER -

The Robust Semantic Segmentation UNCV2023 Challenge Results

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