Multi-Agent Reinforcement Learning-Based Decision Making for Twin-Vehicles Cooperative Driving in Stochastic Dynamic Highway Environments

IF 6.1 2区 计算机科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Siyuan Chen;Meiling Wang;Wenjie Song;Yi Yang;Mengyin Fu
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引用次数: 1

Abstract

In the past decade, reinforcement learning (RL) has achieved encouraging results in autonomous driving, especially in well-structured and regulated highway environments. However, few researches pay attention to RL-based multiple-vehicles cooperative driving, which is much more challenging because of dynamic real-time interactions and transient scenarios. This article proposes a Multi-Agent Reinforcement Learning (MARL) based twin-vehicles cooperative driving decision making method which achieves the generalization adaptation of the RL method in highly dynamic highway environments and enhances the flexibility and effectiveness of collaborative decision making system. The proposed fair cooperative MARL method pays equal attention to the individual intelligence and the cooperative performance, and employs a stable estimation method to reduce the propagation of overestimated joint $Q$-values between agents. Thus, the twin-vehicles system strikes a balance between maintaining formation and free overtaking in dynamic highway environments, to intelligently adapt to different scenarios, such as heavy traffic, loose traffic, even some emergency. Targeted experiments show that our method has strong cooperative performance, also further increases the possibility of creating a harmonious driving environment.
随机动态公路环境下基于多智能体强化学习的双车协同驾驶决策
在过去的十年里,强化学习(RL)在自动驾驶方面取得了令人鼓舞的成果,尤其是在结构良好、监管良好的高速公路环境中。然而,很少有研究关注基于RL的多车协同驾驶,由于动态实时交互和瞬态场景,这一问题更具挑战性。本文提出了一种基于多Agent强化学习(MARL)的双车协同驾驶决策方法,该方法实现了RL方法在高动态公路环境中的泛化自适应,提高了协同决策系统的灵活性和有效性。所提出的公平合作MARL方法同时关注个体智能和合作性能,并采用稳定的估计方法来减少被高估的联合$Q$-值在代理之间的传播。因此,双车系统在动态公路环境中保持队形和自由超车之间取得了平衡,以智能地适应不同的场景,如繁忙的交通、松散的交通,甚至一些紧急情况。有针对性的实验表明,该方法具有较强的协同性能,也进一步增加了营造和谐驾驶环境的可能性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
6.00
自引率
8.80%
发文量
1245
审稿时长
6.3 months
期刊介绍: The scope of the Transactions is threefold (which was approved by the IEEE Periodicals Committee in 1967) and is published on the journal website as follows: Communications: The use of mobile radio on land, sea, and air, including cellular radio, two-way radio, and one-way radio, with applications to dispatch and control vehicles, mobile radiotelephone, radio paging, and status monitoring and reporting. Related areas include spectrum usage, component radio equipment such as cavities and antennas, compute control for radio systems, digital modulation and transmission techniques, mobile radio circuit design, radio propagation for vehicular communications, effects of ignition noise and radio frequency interference, and consideration of the vehicle as part of the radio operating environment. Transportation Systems: The use of electronic technology for the control of ground transportation systems including, but not limited to, traffic aid systems; traffic control systems; automatic vehicle identification, location, and monitoring systems; automated transport systems, with single and multiple vehicle control; and moving walkways or people-movers. Vehicular Electronics: The use of electronic or electrical components and systems for control, propulsion, or auxiliary functions, including but not limited to, electronic controls for engineer, drive train, convenience, safety, and other vehicle systems; sensors, actuators, and microprocessors for onboard use; electronic fuel control systems; vehicle electrical components and systems collision avoidance systems; electromagnetic compatibility in the vehicle environment; and electric vehicles and controls.
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