John Ayeelyan, Guan-Dee Lee, Hsiu-Chun Hsu, Pao-Ann Hsiung
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引用次数: 2
摘要
随着城市人口的增加,车辆越来越多,造成了交通拥堵。为了解决这一问题,开发一个高效、公平的交叉口管理系统是一个重要的问题。随着智能交通系统的发展,车辆的计算效率和车对车通信变得越来越先进,这可以很好地用于开发更智能的系统。因此,自主交叉口管理(AIM)的建议被广泛讨论。本研究提出一种基于强化学习的优势行为-批评(A2C)交叉管理系统。该方法可以学习到公平有效的交叉口资源分配策略。在我们提出的方法中,我们设计了一个奖励函数,然后使用这个奖励函数来鼓励交叉口资源的公平分配。所提出的方法使用制动安全控制来确保自动驾驶车辆的安全行驶。利用SUMO仿真器对孤立路口的交通进行了仿真,并在吞吐量、公平性和最大等待时间方面与Fast First Service (FFS)和GAMEOPT进行了比较。在高流量情况下,公平性提高20% ~ 40%,最大等待时间减少20% ~ 36%。流入率增加,平均等待时间减少,吞吐量增加。
Advantage Actor-Critic for Autonomous Intersection Management
With increasing urban population, there are more and more vehicles, causing traffic congestion. In order to solve this problem, the development of an efficient and fair intersection management system is an important issue. With the development of intelligent transportation systems, the computing efficiency of vehicles and vehicle-to-vehicle communications are becoming more advanced, which can be used to good advantage in developing smarter systems. As such, Autonomous Intersection Management (AIM) proposals have been widely discussed. This research proposes an intersection management system based on Advantage Actor-Critic (A2C) which is a type of reinforcement learning. This method can lead to a fair and efficient intersection resource allocation strategy being learned. In our proposed approach, we design a reward function and then use this reward function to encourage a fair allocation of intersection resources. The proposed approach uses a brake-safe control to ensure that autonomous moving vehicles travel safely. An experiment is performed using the SUMO simulator to simulate traffic at an isolated intersection, and the experimental performance is compared with Fast First Service (FFS) and GAMEOPT in terms of throughput, fairness, and maximum waiting time. The proposed approach increases fairness by 20% to 40%, and the maximum waiting time is reduced by 20% to 36% in high traffic flow. The inflow rates are increased, average waiting time is reduced, and throughput is increased.