Optimizing Mixed Autonomy Traffic Flow with Decentralized Autonomous Vehicles and Multi-Agent Reinforcement Learning

IF 2 Q3 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS ACM Transactions on Cyber-Physical Systems Pub Date : 2023-02-09 DOI:10.1145/3582576
Eugene Vinitsky, Nathan Lichtlé, Kanaad Parvate, A. Bayen
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引用次数: 1

Abstract

We study the ability of autonomous vehicles to improve the throughput of a bottleneck using a fully decentralized control scheme in a mixed autonomy setting. We consider the problem of improving the throughput of a scaled model of the San Francisco–Oakland Bay Bridge: a two-stage bottleneck where four lanes reduce to two and then reduce to one. Although there is extensive work examining variants of bottleneck control in a centralized setting, there is less study of the challenging multi-agent setting where the large number of interacting AVs leads to significant optimization difficulties for reinforcement learning methods. We apply multi-agent reinforcement algorithms to this problem and demonstrate that significant improvements in bottleneck throughput, from 20% at a 5% penetration rate to 33% at a 40% penetration rate, can be achieved. We compare our results to a hand-designed feedback controller and demonstrate that our results sharply outperform the feedback controller despite extensive tuning. Additionally, we demonstrate that the RL-based controllers adopt a robust strategy that works across penetration rates whereas the feedback controllers degrade immediately upon penetration rate variation. We investigate the feasibility of both action and observation decentralization and demonstrate that effective strategies are possible using purely local sensing. Finally, we open-source our code at https://github.com/eugenevinitsky/decentralized_bottlenecks.
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分散式自动驾驶汽车和多智能体强化学习优化混合式自动驾驶交通流
我们研究了自动驾驶汽车在混合自主环境中使用完全分散控制方案提高瓶颈吞吐量的能力。我们考虑了提高旧金山-奥克兰湾大桥缩放模型吞吐量的问题:四车道减少到两车道,然后减少到一车道的两阶段瓶颈。尽管在集中式环境中研究瓶颈控制的变体有大量工作,但对具有挑战性的多智能体环境的研究较少,在这种环境中,大量的交互AVs会导致强化学习方法的显著优化困难。我们将多智能体增强算法应用于该问题,并证明可以显著提高瓶颈吞吐量,从5%渗透率时的20%提高到40%渗透率时的33%。我们将我们的结果与手工设计的反馈控制器进行了比较,并证明尽管进行了大量调整,但我们的结果明显优于反馈控制器。此外,我们证明了基于RL的控制器采用了跨渗透率工作的鲁棒策略,而反馈控制器在渗透率变化时立即降级。我们研究了行动和观测权力下放的可行性,并证明使用纯粹的局部传感是可能的有效策略。最后,我们在https://github.com/eugenevinitsky/decentralized_bottlenecks.
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来源期刊
ACM Transactions on Cyber-Physical Systems
ACM Transactions on Cyber-Physical Systems COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS-
CiteScore
5.70
自引率
4.30%
发文量
40
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