Cross-Observability Optimistic-Pessimistic Safe Reinforcement Learning for Interactive Motion Planning With Visual Occlusion

IF 7.9 1区 工程技术 Q1 ENGINEERING, CIVIL
Xiaohui Hou;Minggang Gan;Wei Wu;Yuan Ji;Shiyue Zhao;Jie Chen
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引用次数: 0

Abstract

This study focuses on the motion planning and risk evaluation of unprotected left turns at occluded intersections for autonomous vehicles. In this paper, we present an interactive motion planning controller that combines Cross-Observability Optimistic-Pessimistic Safe Reinforcement Learning (COOP-SRL) and Nonlinear Model Predictive Control (NMPC), with consideration of the uncertain potential risk of occluded zone, the trade-off between safety and efficiency, and the dynamic interaction between vehicles. The proposed COOP-SRL algorithm integrates fully and partially observable policies through cross-observability soft imitation learning to leverage the expert guidance and improve learning efficiency. Moreover, the optimistic exploration policy and pessimism safe constraint are adopted to provide an adaptive safe strategy without hindering the exploration during learning process. Finally, the evaluations of the proposed controller were conducted in occluded intersection scenarios with various traffic density level, which indicate that the proposed method outperforms both the optimization-based and learning-based baselines in qualitative and quantitative indexes.
针对视觉遮挡下交互式运动规划的交叉可观察性乐观-悲观安全强化学习
本研究的重点是自动驾驶车辆在闭塞交叉路口无保护左转弯的运动规划和风险评估。在本文中,我们提出了一种交互式运动规划控制器,它结合了交叉可观测优化-悲观安全强化学习(COOP-SRL)和非线性模型预测控制(NMPC),并考虑了闭塞区域的不确定潜在风险、安全与效率之间的权衡以及车辆之间的动态交互。所提出的 COOP-SRL 算法通过交叉可观测性软模仿学习整合了完全可观测和部分可观测策略,以充分利用专家指导并提高学习效率。此外,还采用了乐观探索策略和悲观安全约束,以提供自适应安全策略,而不妨碍学习过程中的探索。最后,在不同交通密度水平的闭塞交叉口场景中对所提出的控制器进行了评估,结果表明所提出的方法在定性和定量指标上都优于基于优化和基于学习的基线方法。
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来源期刊
IEEE Transactions on Intelligent Transportation Systems
IEEE Transactions on Intelligent Transportation Systems 工程技术-工程:电子与电气
CiteScore
14.80
自引率
12.90%
发文量
1872
审稿时长
7.5 months
期刊介绍: The theoretical, experimental and operational aspects of electrical and electronics engineering and information technologies as applied to Intelligent Transportation Systems (ITS). Intelligent Transportation Systems are defined as those systems utilizing synergistic technologies and systems engineering concepts to develop and improve transportation systems of all kinds. The scope of this interdisciplinary activity includes the promotion, consolidation and coordination of ITS technical activities among IEEE entities, and providing a focus for cooperative activities, both internally and externally.
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