Modified Model Predictive Control for Coordinated Signals along an Arterial under Relaxing Assumptions

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-02-21 DOI:10.1155/2024/9967121
Kun Zhang, Hongfeng Xu, Baofeng Pan, Qiming Zheng, Hongjin Chen
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Abstract

This paper proposes modified model predictive control (MMPC) for coordinated signals, aiming to enhance a model’s fidelity to the realistic traffic environment by relaxing typical assumptions. We focus on the arterial, where every intersection is equipped with a dual-ring-barrier signal controller that complies with the standards of the National Electric Manufacturers Association. MMPC employs the store-and-forward model to describe traffic flow, thereby transforming the signal control problem into a model-based rolling-horizon optimization problem, in which the prediction horizon is composed of several future sample intervals, commonly equal to the cycle length. A radar detector is used to collect vehicle data upstream of the stop line at every sampling instant. The optimization problem is solved to minimize the number of vehicles within the prediction horizon, and the next timing plan is determined based on the optimization results. Constraints are added and modified in order to incorporate the typical relaxed assumptions in the optimization process. For this purpose, MMPC introduces a transition-free ring-barrier structure, vehicle distribution ratio, and percent arrival before the end of green. Simulation results indicate that coordination can be maintained by MMPC without the need for transitions, and the estimation of current and future traffic states can be improved with the assistance of modified constraints. Compared with benchmark techniques, MMPC offers superior vehicle progression for coordinated movement and significant improvements in delays, number of stops, and total travel time from a system-wide perspective, with an acceptable small increase in runtime.

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宽松假设条件下干道协调信号的修正模型预测控制
本文提出了针对协调信号的修正模型预测控制(MMPC),旨在通过放宽典型假设,提高模型对现实交通环境的保真度。我们将重点放在干道上,每个交叉口都配备了符合美国电气制造商协会标准的双环栅信号控制器。MMPC 采用存储转发模型来描述交通流,从而将信号控制问题转化为基于模型的滚动视距优化问题,其中预测视距由多个未来采样间隔组成,通常等于周期长度。使用雷达探测器在每个采样瞬间收集停止线上游的车辆数据。优化问题的解法是使预测范围内的车辆数量最小,并根据优化结果确定下一个计时方案。为了将典型的宽松假设纳入优化过程,需要添加和修改约束条件。为此,MMPC 引入了无过渡环障结构、车辆分配比例和绿灯结束前的到达百分比。仿真结果表明,MMPC 可以在不需要过渡的情况下保持协调,并在修改约束条件的帮助下改进对当前和未来交通状态的估计。与基准技术相比,MMPC 可为协调移动提供更优越的车辆行进速度,并从整个系统的角度显著改善延迟、停车次数和总行驶时间,同时运行时间的小幅增加也是可以接受的。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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