Coordinated route optimization for heavy-duty vehicle platoons

16th International IEEE Conference on Intelligent Transportation Systems (ITSC 2013) Pub Date : 2013-10-01 DOI:10.1109/ITSC.2013.6728395

Jeffrey Larson, Christoph Kammer, Kuo-Yun Liang, K. Johansson

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引用次数: 60

Abstract

Heavy-duty vehicles traveling in platoons consume fuel at a reduced rate. In this paper, we attempt to maximize this benefit by introducing local controllers throughout a road network to facilitate platoon formations with minimal information. By knowing a vehicle's position, speed, and destination, the local controller can quickly decide how its speed should be possibly adjusted to platoon with others in the near future. We solve this optimal control and routing problem exactly for small numbers of vehicles, and present a fast heuristic algorithm for real-time use. We then implement such a distributed control system through a large-scale simulation of the German autobahn road network containing thousands of vehicles. The simulation shows fuel savings from 1-9%, with savings exceeding 5% when only a few thousand vehicles participate in the system. We assume no vehicles will travel more than the time required for their shortest paths for the majority of the paper. We conclude the results by analyzing how a relaxation of this assumption can further reduce fuel use.

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重型车辆排协调路线优化

以排的形式行驶的重型车辆消耗燃料的速度较低。在本文中，我们试图通过在整个道路网络中引入本地控制器来最大化这一好处，以最少的信息促进排的形成。通过了解车辆的位置、速度和目的地，本地控制器可以快速决定如何调整其速度，以便在不久的将来与其他车辆排在一起。我们精确地解决了小数量车辆的最优控制和路径问题，并提出了一种实时使用的快速启发式算法。然后，我们通过对包含数千辆车辆的德国高速公路路网的大规模模拟来实现这样一个分布式控制系统。仿真结果显示，该系统可节省1-9%的燃油，当只有几千辆汽车参与该系统时，可节省超过5%的燃油。我们假设在论文的大部分时间里，没有车辆会行驶超过最短路径所需的时间。我们通过分析放宽这一假设如何进一步减少燃料使用来得出结论。

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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16th International IEEE Conference on Intelligent Transportation Systems (ITSC 2013)

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