Ecological Adaptive Cruise Control for Urban Environments using SPaT Information

S. Chada, Ankith Purbai, D. Görges, Achim Ebert, R. Teutsch
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引用次数: 5

Abstract

This paper proposes an ecological adaptive cruise control (EACC) strategy to minimize the energy consumption of an electric vehicle using two linear model predictive controllers (MPCs). In the absence of a preceding vehicle, the first MPC uses the upcoming traffic light signal phase and timing (SPaT) information to track an optimal green-wave velocity to reach the next traffic light signal during green phase. For the preceding vehicle in range scenario, the second MPC follows the leading vehicle by maintaining a desired inter-vehicle distance and strictly adheres to road speed limits. If the upcoming traffic light signal phase is changing to red, the controller uses the SPaT information to plan an energy-efficient stop near the traffic light signal. To evaluate the performance of the proposed strategy, both controllers are tested in a realistic scenario against a baseline controller and furthermore their energy saving benefits are explored. Finally, investigations on computation time reveal that the proposed strategy is capable for online implementation.
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基于spv信息的城市环境生态自适应巡航控制
本文提出了一种利用两个线性模型预测控制器(mpc)实现电动汽车能耗最小化的生态自适应巡航控制(EACC)策略。在没有前车的情况下,第一个MPC使用即将到来的交通灯信号相位和时序(SPaT)信息来跟踪最佳绿波速度,以便在绿灯阶段到达下一个交通灯信号。对于前一辆车,第二辆MPC跟随前一辆车,保持期望的车间距离,并严格遵守道路速度限制。如果即将到来的交通灯信号阶段变为红色,控制器使用该信息在交通灯信号附近计划一个节能停车。为了评估所提出的策略的性能,在现实场景中对两个控制器进行了基准控制器的测试,并进一步探讨了它们的节能效益。最后,对计算时间的研究表明,该策略可以在线实现。
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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