V2X-DGW: Domain Generalization for Multi-Agent Perception under Adverse Weather Conditions

Baolu Li; Jinlong Li; Xinyu Liu; Runsheng Xu; Zhengzhong Tu; Jiacheng Guo; Qin Zou; Xiaopeng Li; Hongkai Yu

doi:10.1109/ICRA55743.2025.11127945

V2X-DGW: Domain Generalization for Multi-Agent Perception under Adverse Weather Conditions

Baolu Li
, Jinlong Li
, Xinyu Liu
, Runsheng Xu
, Zhengzhong Tu
, Jiacheng Guo
, Qin Zou
, Xiaopeng Li
, Hongkai Yu

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

3 Scopus citations

Abstract

Current LiDAR-based Vehicle-to-Everything (V2X) multi-agent perception systems have shown the significant success on 3D object detection. While these models perform well in the trained clean weather, they struggle in unseen adverse weather conditions with the domain gap. In this paper, we propose a Domain Generalization based approach, named V2X-DGW, for LiDAR-based 3D object detection on multi-agent perception system under adverse weather conditions. Our research aims to not only maintain favorable multi-agent performance in the clean weather but also promote the performance in the unseen adverse weather conditions by learning only on the clean weather data. To realize the Domain Generalization, we first introduce the Adaptive Weather Augmentation (AWA) to mimic the unseen adverse weather conditions, and then propose two alignments for generalizable representation learning: Trust-region Weatherinvariant Alignment (TWA) and Agent-aware Contrastive Alignment (ACA). To evaluate this research, we add Fog, Rain, Snow conditions on two publicized multi-agent datasets based on physics-based models, resulting in two new datasets: OPV2V-w and V2XSet-w. Extensive experiments demonstrate that our V2X-DGW achieved significant improvements in the unseen adverse weathers. The code is available at https://github.com/Baolu1998/V2X-DGW.

Original language	English
Title of host publication	Proceedings - IEEE International Conference on Robotics and Automation
Editors	Christian Ott, Henny Admoni, Sven Behnke, Stjepan Bogdan, Aude Bolopion, Youngjin Choi, Fanny Ficuciello, Nicholas Gans, Clement Gosselin, Kensuke Harada, Erdal Kayacan, H. Jin Kim, Stefan Leutenegger, Zhe Liu, Perla Maiolino, Lino Marques, Takamitsu Matsubara, Anastasia Mavromatti, Mark Minor, Jason O'Kane, Hae Won Park, Hae-Won Park, Ioannis Rekleitis, Federico Renda, Elisa Ricci, Laurel D. Riek, Lorenzo Sabattini, Shaojie Shen, Yu Sun, Pierre-Brice Wieber, Katsu Yamane, Jingjin Yu
Place of Publication	usa
Publisher	Institute of Electrical and Electronics Engineers Inc.
Pages	974-980
Number of pages	7
ISBN (Electronic)	9798331541392
DOIs	https://doi.org/10.1109/ICRA55743.2025.11127945
State	Published - Jan 1 2025
Event	2025 IEEE International Conference on Robotics and Automation, ICRA 2025 - Atlanta, United States Duration: May 19 2025 → May 23 2025

Conference

Conference	2025 IEEE International Conference on Robotics and Automation, ICRA 2025
Country/Territory	United States
City	Atlanta
Period	05/19/25 → 05/23/25

Access to Document

10.1109/ICRA55743.2025.11127945

Cite this

Li, B., Li, J., Liu, X., Xu, R., Tu, Z., Guo, J., Zou, Q., Li, X., & Yu, H. (2025). V2X-DGW: Domain Generalization for Multi-Agent Perception under Adverse Weather Conditions. In C. Ott, H. Admoni, S. Behnke, S. Bogdan, A. Bolopion, Y. Choi, F. Ficuciello, N. Gans, C. Gosselin, K. Harada, E. Kayacan, H. J. Kim, S. Leutenegger, Z. Liu, P. Maiolino, L. Marques, T. Matsubara, A. Mavromatti, M. Minor, J. O'Kane, H. W. Park, H.-W. Park, I. Rekleitis, F. Renda, E. Ricci, L. D. Riek, L. Sabattini, S. Shen, Y. Sun, P.-B. Wieber, K. Yamane, ... J. Yu (Eds.), Proceedings - IEEE International Conference on Robotics and Automation (pp. 974-980). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/ICRA55743.2025.11127945

Li, Baolu ; Li, Jinlong ; Liu, Xinyu et al. / V2X-DGW: Domain Generalization for Multi-Agent Perception under Adverse Weather Conditions. Proceedings - IEEE International Conference on Robotics and Automation. editor / Christian Ott ; Henny Admoni ; Sven Behnke ; Stjepan Bogdan ; Aude Bolopion ; Youngjin Choi ; Fanny Ficuciello ; Nicholas Gans ; Clement Gosselin ; Kensuke Harada ; Erdal Kayacan ; H. Jin Kim ; Stefan Leutenegger ; Zhe Liu ; Perla Maiolino ; Lino Marques ; Takamitsu Matsubara ; Anastasia Mavromatti ; Mark Minor ; Jason O'Kane ; Hae Won Park ; Hae-Won Park ; Ioannis Rekleitis ; Federico Renda ; Elisa Ricci ; Laurel D. Riek ; Lorenzo Sabattini ; Shaojie Shen ; Yu Sun ; Pierre-Brice Wieber ; Katsu Yamane ; Jingjin Yu. usa : Institute of Electrical and Electronics Engineers Inc., 2025. pp. 974-980

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title = "V2X-DGW: Domain Generalization for Multi-Agent Perception under Adverse Weather Conditions",

abstract = "Current LiDAR-based Vehicle-to-Everything (V2X) multi-agent perception systems have shown the significant success on 3D object detection. While these models perform well in the trained clean weather, they struggle in unseen adverse weather conditions with the domain gap. In this paper, we propose a Domain Generalization based approach, named V2X-DGW, for LiDAR-based 3D object detection on multi-agent perception system under adverse weather conditions. Our research aims to not only maintain favorable multi-agent performance in the clean weather but also promote the performance in the unseen adverse weather conditions by learning only on the clean weather data. To realize the Domain Generalization, we first introduce the Adaptive Weather Augmentation (AWA) to mimic the unseen adverse weather conditions, and then propose two alignments for generalizable representation learning: Trust-region Weatherinvariant Alignment (TWA) and Agent-aware Contrastive Alignment (ACA). To evaluate this research, we add Fog, Rain, Snow conditions on two publicized multi-agent datasets based on physics-based models, resulting in two new datasets: OPV2V-w and V2XSet-w. Extensive experiments demonstrate that our V2X-DGW achieved significant improvements in the unseen adverse weathers. The code is available at https://github.com/Baolu1998/V2X-DGW.",

author = "Baolu Li and Jinlong Li and Xinyu Liu and Runsheng Xu and Zhengzhong Tu and Jiacheng Guo and Qin Zou and Xiaopeng Li and Hongkai Yu",

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doi = "10.1109/ICRA55743.2025.11127945",

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booktitle = "Proceedings - IEEE International Conference on Robotics and Automation",

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note = "2025 IEEE International Conference on Robotics and Automation, ICRA 2025 ; Conference date: 19-05-2025 Through 23-05-2025",

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Li, B, Li, J, Liu, X, Xu, R, Tu, Z, Guo, J, Zou, Q, Li, X & Yu, H 2025, V2X-DGW: Domain Generalization for Multi-Agent Perception under Adverse Weather Conditions. in C Ott, H Admoni, S Behnke, S Bogdan, A Bolopion, Y Choi, F Ficuciello, N Gans, C Gosselin, K Harada, E Kayacan, HJ Kim, S Leutenegger, Z Liu, P Maiolino, L Marques, T Matsubara, A Mavromatti, M Minor, J O'Kane, HW Park, H-W Park, I Rekleitis, F Renda, E Ricci, LD Riek, L Sabattini, S Shen, Y Sun, P-B Wieber, K Yamane & J Yu (eds), Proceedings - IEEE International Conference on Robotics and Automation. Institute of Electrical and Electronics Engineers Inc., usa, pp. 974-980, 2025 IEEE International Conference on Robotics and Automation, ICRA 2025, Atlanta, United States, 05/19/25. https://doi.org/10.1109/ICRA55743.2025.11127945

V2X-DGW: Domain Generalization for Multi-Agent Perception under Adverse Weather Conditions. / Li, Baolu; Li, Jinlong; Liu, Xinyu et al.
Proceedings - IEEE International Conference on Robotics and Automation. ed. / Christian Ott; Henny Admoni; Sven Behnke; Stjepan Bogdan; Aude Bolopion; Youngjin Choi; Fanny Ficuciello; Nicholas Gans; Clement Gosselin; Kensuke Harada; Erdal Kayacan; H. Jin Kim; Stefan Leutenegger; Zhe Liu; Perla Maiolino; Lino Marques; Takamitsu Matsubara; Anastasia Mavromatti; Mark Minor; Jason O'Kane; Hae Won Park; Hae-Won Park; Ioannis Rekleitis; Federico Renda; Elisa Ricci; Laurel D. Riek; Lorenzo Sabattini; Shaojie Shen; Yu Sun; Pierre-Brice Wieber; Katsu Yamane; Jingjin Yu. usa: Institute of Electrical and Electronics Engineers Inc., 2025. p. 974-980.

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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T1 - V2X-DGW: Domain Generalization for Multi-Agent Perception under Adverse Weather Conditions

AU - Li, Baolu

AU - Li, Jinlong

AU - Liu, Xinyu

AU - Xu, Runsheng

AU - Tu, Zhengzhong

AU - Guo, Jiacheng

AU - Zou, Qin

AU - Li, Xiaopeng

AU - Yu, Hongkai

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N2 - Current LiDAR-based Vehicle-to-Everything (V2X) multi-agent perception systems have shown the significant success on 3D object detection. While these models perform well in the trained clean weather, they struggle in unseen adverse weather conditions with the domain gap. In this paper, we propose a Domain Generalization based approach, named V2X-DGW, for LiDAR-based 3D object detection on multi-agent perception system under adverse weather conditions. Our research aims to not only maintain favorable multi-agent performance in the clean weather but also promote the performance in the unseen adverse weather conditions by learning only on the clean weather data. To realize the Domain Generalization, we first introduce the Adaptive Weather Augmentation (AWA) to mimic the unseen adverse weather conditions, and then propose two alignments for generalizable representation learning: Trust-region Weatherinvariant Alignment (TWA) and Agent-aware Contrastive Alignment (ACA). To evaluate this research, we add Fog, Rain, Snow conditions on two publicized multi-agent datasets based on physics-based models, resulting in two new datasets: OPV2V-w and V2XSet-w. Extensive experiments demonstrate that our V2X-DGW achieved significant improvements in the unseen adverse weathers. The code is available at https://github.com/Baolu1998/V2X-DGW.

AB - Current LiDAR-based Vehicle-to-Everything (V2X) multi-agent perception systems have shown the significant success on 3D object detection. While these models perform well in the trained clean weather, they struggle in unseen adverse weather conditions with the domain gap. In this paper, we propose a Domain Generalization based approach, named V2X-DGW, for LiDAR-based 3D object detection on multi-agent perception system under adverse weather conditions. Our research aims to not only maintain favorable multi-agent performance in the clean weather but also promote the performance in the unseen adverse weather conditions by learning only on the clean weather data. To realize the Domain Generalization, we first introduce the Adaptive Weather Augmentation (AWA) to mimic the unseen adverse weather conditions, and then propose two alignments for generalizable representation learning: Trust-region Weatherinvariant Alignment (TWA) and Agent-aware Contrastive Alignment (ACA). To evaluate this research, we add Fog, Rain, Snow conditions on two publicized multi-agent datasets based on physics-based models, resulting in two new datasets: OPV2V-w and V2XSet-w. Extensive experiments demonstrate that our V2X-DGW achieved significant improvements in the unseen adverse weathers. The code is available at https://github.com/Baolu1998/V2X-DGW.

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A2 - Ott, Christian

A2 - Admoni, Henny

A2 - Behnke, Sven

A2 - Bogdan, Stjepan

A2 - Bolopion, Aude

A2 - Choi, Youngjin

A2 - Ficuciello, Fanny

A2 - Gans, Nicholas

A2 - Gosselin, Clement

A2 - Harada, Kensuke

A2 - Kayacan, Erdal

A2 - Kim, H. Jin

A2 - Leutenegger, Stefan

A2 - Liu, Zhe

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A2 - Minor, Mark

A2 - O'Kane, Jason

A2 - Park, Hae Won

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Li B, Li J, Liu X, Xu R, Tu Z, Guo J et al. V2X-DGW: Domain Generalization for Multi-Agent Perception under Adverse Weather Conditions. In Ott C, Admoni H, Behnke S, Bogdan S, Bolopion A, Choi Y, Ficuciello F, Gans N, Gosselin C, Harada K, Kayacan E, Kim HJ, Leutenegger S, Liu Z, Maiolino P, Marques L, Matsubara T, Mavromatti A, Minor M, O'Kane J, Park HW, Park HW, Rekleitis I, Renda F, Ricci E, Riek LD, Sabattini L, Shen S, Sun Y, Wieber PB, Yamane K, Yu J, editors, Proceedings - IEEE International Conference on Robotics and Automation. usa: Institute of Electrical and Electronics Engineers Inc. 2025. p. 974-980 doi: 10.1109/ICRA55743.2025.11127945

V2X-DGW: Domain Generalization for Multi-Agent Perception under Adverse Weather Conditions

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