Cooperative adaptable lanes for safer shared space and improved mixed-traffic flow

IF 7.6 1区 工程技术 Q1 TRANSPORTATION SCIENCE & TECHNOLOGY
Rohit K. Dubey , Javier Argota Sánchez–Vaquerizo , Damian Dailisan , Dirk Helbing
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Abstract

With the rapid increase in the percentage of the world’s population living in cities, the design of existing transportation infrastructure requires serious consideration. Current road networks, especially in large cities, face acute pressures due to increased demand for vehicles, cyclists, and pedestrians. Although much attention has been given to improve traffic management and accommodate the increased demand via coordinating and optimizing traffic signals, research focused on adapting the static allocation of street spaces and right-of-way dynamically based on mixed traffic flow is still scarce. This paper proposes a multi-agent reinforcement learning (RL) agent approach that cooperatively adapts the individual lane widths and right-of-way access permissions based on real-world mixed traffic flow. In particular, multiple cooperative agents are trained with mixed temporal data that learn to decide suitable lane widths for motorized vehicles, bicycles, and pedestrians, along with whether co-sharing space between pedestrians and cyclists is safe. Using a microscopic traffic simulator model of a four-legged intersection, we trained our RL agent on synthetic data, and tested it on realistic multi-modal traffic data. The proposed approach reduces the overall average waiting time and queue length by 48.9% and 37.7%, respectively, compared to the Static (baseline) street design. Additionally, we observe CALM’s ability to gradually adjust lane widths, contrasting with the Heuristic implementation’s erratic lane adjustments, which pose potential safety concerns. Notably, the model learns to adaptively toggle the co-sharing of street space between cyclists and pedestrians as one co-shared lane, ensuring comfort and maintaining the level of service according to the designer’s policy. Finally, we demonstrate CALM’s scalability on a simulated large-scale traffic network.

合作式可调整车道,提供更安全的共享空间,改善混合交通流
随着世界城市人口比例的快速增长,现有交通基础设施的设计需要认真考虑。目前的道路网络,尤其是大城市的道路网络,面临着车辆、自行车和行人需求增加所带来的巨大压力。虽然通过协调和优化交通信号来改善交通管理和满足日益增长的需求已受到广泛关注,但基于混合交通流动态调整街道空间和路权静态分配的研究仍然很少。本文提出了一种多代理强化学习(RL)代理方法,可根据现实世界的混合交通流量,合作调整各个车道的宽度和路权使用权限。特别是,使用混合时间数据训练多个合作代理,让它们学会决定机动车、自行车和行人的合适车道宽度,以及行人和自行车共用空间是否安全。我们使用四足交叉口的微观交通模拟器模型,在合成数据上训练了我们的 RL 代理,并在真实的多模式交通数据上进行了测试。与静态(基线)街道设计相比,所提出的方法将总体平均等待时间和队列长度分别减少了 48.9% 和 37.7%。此外,我们还观察到 CALM 能够逐步调整车道宽度,这与启发式实施方案的不稳定车道调整形成鲜明对比,后者会带来潜在的安全隐患。值得注意的是,该模型学会了自适应切换自行车和行人共用街道空间,将其作为一条共用车道,从而确保舒适性,并根据设计者的政策维持服务水平。最后,我们在模拟的大规模交通网络上演示了 CALM 的可扩展性。
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
15.80
自引率
12.00%
发文量
332
审稿时长
64 days
期刊介绍: Transportation Research: Part C (TR_C) is dedicated to showcasing high-quality, scholarly research that delves into the development, applications, and implications of transportation systems and emerging technologies. Our focus lies not solely on individual technologies, but rather on their broader implications for the planning, design, operation, control, maintenance, and rehabilitation of transportation systems, services, and components. In essence, the intellectual core of the journal revolves around the transportation aspect rather than the technology itself. We actively encourage the integration of quantitative methods from diverse fields such as operations research, control systems, complex networks, computer science, and artificial intelligence. Join us in exploring the intersection of transportation systems and emerging technologies to drive innovation and progress in the field.
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