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Main Authors: Guo, An, Gao, Xinyu, Fang, Chunrong, Tian, Haoxiang, Sun, Weisong, Mu, Yanzhou, Tang, Shuncheng, Ma, Lei, Chen, Zhenyu
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2506.07419
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author Guo, An
Gao, Xinyu
Fang, Chunrong
Tian, Haoxiang
Sun, Weisong
Mu, Yanzhou
Tang, Shuncheng
Ma, Lei
Chen, Zhenyu
author_facet Guo, An
Gao, Xinyu
Fang, Chunrong
Tian, Haoxiang
Sun, Weisong
Mu, Yanzhou
Tang, Shuncheng
Ma, Lei
Chen, Zhenyu
contents Accurately perceiving complex driving environments is essential for ensuring the safe operation of autonomous vehicles. With the tremendous progress in deep learning and communication technologies, cooperative perception with Vehicle-to-Everything (V2X) technologies has emerged as a solution to overcome the limitations of single-agent perception systems in perceiving distant objects and occlusions. Despite the considerable advancements, V2X cooperative perception systems require thorough testing and continuous enhancement of system performance. Given that V2X driving scenes entail intricate communications with multiple vehicles across various geographic locations, creating V2X test scenes for these systems poses a significant challenge. Moreover, current testing methodologies rely on manual data collection and labeling, which are both time-consuming and costly. In this paper, we design and implement V2XGen, an automated testing generation tool for V2X cooperative perception systems. V2XGen utilizes a high-fidelity approach to generate realistic cooperative object instances and strategically place them within the background data in crucial positions. Furthermore, V2XGen adopts a fitness-guided V2X scene generation strategy for the transformed scene generation process and improves testing efficiency. We conduct experiments on V2XGen using multiple cooperative perception systems with different fusion schemes to assess its performance on various tasks. The experimental results demonstrate that V2XGen is capable of generating realistic test scenes and effectively detecting erroneous behaviors in different V2X-oriented driving conditions. Furthermore, the results validate that retraining systems under test with the generated scenes can enhance average detection precision while reducing occlusion and long-range perception errors.
format Preprint
id arxiv_https___arxiv_org_abs_2506_07419
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Generate Realistic Test Scenes for V2X Communication Systems
Guo, An
Gao, Xinyu
Fang, Chunrong
Tian, Haoxiang
Sun, Weisong
Mu, Yanzhou
Tang, Shuncheng
Ma, Lei
Chen, Zhenyu
Software Engineering
Accurately perceiving complex driving environments is essential for ensuring the safe operation of autonomous vehicles. With the tremendous progress in deep learning and communication technologies, cooperative perception with Vehicle-to-Everything (V2X) technologies has emerged as a solution to overcome the limitations of single-agent perception systems in perceiving distant objects and occlusions. Despite the considerable advancements, V2X cooperative perception systems require thorough testing and continuous enhancement of system performance. Given that V2X driving scenes entail intricate communications with multiple vehicles across various geographic locations, creating V2X test scenes for these systems poses a significant challenge. Moreover, current testing methodologies rely on manual data collection and labeling, which are both time-consuming and costly. In this paper, we design and implement V2XGen, an automated testing generation tool for V2X cooperative perception systems. V2XGen utilizes a high-fidelity approach to generate realistic cooperative object instances and strategically place them within the background data in crucial positions. Furthermore, V2XGen adopts a fitness-guided V2X scene generation strategy for the transformed scene generation process and improves testing efficiency. We conduct experiments on V2XGen using multiple cooperative perception systems with different fusion schemes to assess its performance on various tasks. The experimental results demonstrate that V2XGen is capable of generating realistic test scenes and effectively detecting erroneous behaviors in different V2X-oriented driving conditions. Furthermore, the results validate that retraining systems under test with the generated scenes can enhance average detection precision while reducing occlusion and long-range perception errors.
title Generate Realistic Test Scenes for V2X Communication Systems
topic Software Engineering
url https://arxiv.org/abs/2506.07419