基于网格的交叉路口自动驾驶车辆移动管理框架

M. Ghadi
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引用次数: 0

摘要

随着未来自动驾驶汽车(AV)的全面普及,无信号交叉口的概念吸引了交通研究人员的关注。多项研究调查了不同的方法和协议,以促进车辆在交叉路口的决策。这些方法大多依赖于强大的集中式通信或车辆间通信。本研究旨在开发一种新协议,用于在假设全自动车队的四脚交叉路口管理车辆行驶。所提协议的主要概念是通过控制车辆的移动顺序,保持进入交叉路口的车辆持续移动,而不在队列中停车。该方法采用动态占位网格(DOG)方法,首先将交叉路口划分为动态网格(即单元)。这些单元处于虚拟运动中,从每个车道组发散开来,没有重叠,就像一台齿轮机。每辆车都坐在一个特定的单元上,在预定的时间内安全通过交叉路口。换句话说,驶近交叉路口的车辆必须通过特定传感器登记其速度和位置,并获得相应的加速度和速度,最终分配到合适的移动网格。应用协议的效率通过一个实际例子得到了证明,在某些情况下,十字路口的通行能力值超过了理想的饱和流量。这反映了所实施协议的效率及其对不同低流量到高流量的适用性。此外,该协议在处理不同的天气、几何和交通条件时显示出更大的灵活性。
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A Grid-based Framework for Managing Autonomous Vehicles' Movement at Intersections
With a full fleet of autonomous vehicles (AV) in the future, the concept of signal-free intersections has attracted transportation researchers. Multiple studies have investigated different methods and protocols to facilitate vehicle decision-making at intersections. Most of these methods have relied on strong centralized or inter-vehicle communications. This research aims to develop a new protocol for managing vehicle movement at four-leg intersections assuming a fully automated fleet. The main concept of the proposed protocol is to maintain a continuous movement of vehicles entering the intersection, without stopping in queues, by controlling their sequence of movements. In the methodology a dynamic occupancy grid (DOG) approach is applied by initially dividing the intersection into dynamic grids (i.e. cells). The cells are in a virtual movement, emanating away from each lane-group without overlapping, like a gear machine. Each vehicle sits on a specific cell to traverse the intersection safely at a predetermined time. In other words, vehicles approaching an intersection must register their speed and position by certain sensors, and in return receive the appropriate acceleration and speed to finally be allocated to the suitable moving grids. The efficiency of the applied protocol was demonstrated by a practical example that presented a higher intersection capacity value exceeding the ideal saturation flow rate in some cases. This reflects the efficiency of the implemented protocol and its applicability to different low to high traffic flows. Moreover, the protocol shows more flexibility in dealing with different weather, geometric and traffic conditions.
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来源期刊
Periodica Polytechnica Transportation Engineering
Periodica Polytechnica Transportation Engineering Engineering-Automotive Engineering
CiteScore
2.60
自引率
0.00%
发文量
47
期刊介绍: Periodica Polytechnica is a publisher of the Budapest University of Technology and Economics. It publishes seven international journals (Architecture, Chemical Engineering, Civil Engineering, Electrical Engineering, Mechanical Engineering, Social and Management Sciences, Transportation Engineering). The journals have free electronic versions.
期刊最新文献
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