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Autori principali: Zhang, Chuancheng, Wang, Zhenhao, Li, Kaizheng, Lin, Yaran, Guo, Qiang, Jiang, Bin
Natura: Preprint
Pubblicazione: 2026
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Accesso online:https://arxiv.org/abs/2605.15654
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author Zhang, Chuancheng
Wang, Zhenhao
Li, Kaizheng
Lin, Yaran
Guo, Qiang
Jiang, Bin
author_facet Zhang, Chuancheng
Wang, Zhenhao
Li, Kaizheng
Lin, Yaran
Guo, Qiang
Jiang, Bin
contents Real-world autonomous driving, particularly in urban environments with numerous corner cases, requires rigorous testing to ensure product safety and robustness. However, few studies have explored integrating adversarial scenario generation with the training of safety agents in closed-loop testing, enabling efficient co-evolution and mutual enhancement of both. To address this challenge, an adversarial behavior knowledge repository is constructed by applying rule-based filtering to an open-source dataset, combined with knowledge retrieval modules tailored for simulation environments. A large language model (LLM) is employed to integrate knowledge-, data-, and adversarial-driven approaches, generating safety-critical traffic scenarios customized to user needs. Additionally, while evaluating the generated scenarios, we employ reinforcement learning models to train the behaviors of different types of vehicles, thereby enriching scenario diversity beyond existing datasets while preserving realism. Experimental results demonstrate that the proposed framework improves the accuracy of domain-specific language generation by 12\%. Moreover, the success rate of newly generated scenario transformations increases by 8\%, while obstacle-avoidance capability is enhanced by 30\%. For the complete manuscript, please refer to: https://zhenhaooo.github.io/PCASim.github.io/
format Preprint
id arxiv_https___arxiv_org_abs_2605_15654
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle PCASim: Promptable Closed-loop Adversarial Simulation for Urban Traffic Environment
Zhang, Chuancheng
Wang, Zhenhao
Li, Kaizheng
Lin, Yaran
Guo, Qiang
Jiang, Bin
Robotics
Real-world autonomous driving, particularly in urban environments with numerous corner cases, requires rigorous testing to ensure product safety and robustness. However, few studies have explored integrating adversarial scenario generation with the training of safety agents in closed-loop testing, enabling efficient co-evolution and mutual enhancement of both. To address this challenge, an adversarial behavior knowledge repository is constructed by applying rule-based filtering to an open-source dataset, combined with knowledge retrieval modules tailored for simulation environments. A large language model (LLM) is employed to integrate knowledge-, data-, and adversarial-driven approaches, generating safety-critical traffic scenarios customized to user needs. Additionally, while evaluating the generated scenarios, we employ reinforcement learning models to train the behaviors of different types of vehicles, thereby enriching scenario diversity beyond existing datasets while preserving realism. Experimental results demonstrate that the proposed framework improves the accuracy of domain-specific language generation by 12\%. Moreover, the success rate of newly generated scenario transformations increases by 8\%, while obstacle-avoidance capability is enhanced by 30\%. For the complete manuscript, please refer to: https://zhenhaooo.github.io/PCASim.github.io/
title PCASim: Promptable Closed-loop Adversarial Simulation for Urban Traffic Environment
topic Robotics
url https://arxiv.org/abs/2605.15654