实时重调度下基于路段清理时间预测的列车速度节能优化

IF 2.6 Q3 TRANSPORTATION
Alexandra Liebhold , Shota Miyoshi , Nils Nießen , Takafumi Koseki
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引用次数: 2

摘要

在铁路运营期间,节能驾驶至关重要,尤其是在需要重新安排时间表的干扰情况下。本文提出了一种在混合交通的固定闭塞信号系统下,在实时列车重新调度过程后,动态车载调整节能速度剖面的方法。与连接驾驶员咨询系统的想法类似,列车不断与中央交通管理系统通信。在重新调度过程之后,该系统根据预测的闭塞区段的清除时间为闭塞信号的通过提供推荐的时间走廊。然后,通过避免在闭塞信号机前进行不必要的制动并最大化巡航距离,将这些建议用于单列车运行的单独能量优化。在亚琛工业大学铁路信号实验室ELVA的一个代表性线段上,在现实条件下对该方法进行了测试和评估。对列车车载系统可获得建议的不同预测时间段的能耗进行比较。在两列列车的测试案例中,与没有任何重新调度系统的运行相比,能耗可以降低53%。因此,所提出的方法能够显著降低能耗。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Onboard train speed optimization for energy saving using the prediction of block clearing times under real-time rescheduling

Energy-saving driving is crucial during railway operation, especially in case of disturbances that require timetable rescheduling. This paper presents a method for the dynamic onboard tuning of energy-efficient speed profiles after the real-time train rescheduling process under a fixed block signaling system for mixed traffic. Similar to the idea of connected driver advisory systems, trains constantly communicate with a central traffic management system. After the rescheduling process, this system provides recommended time corridors for the passing of block signals that depend on the predicted clearing times of the block sections. These recommendations are then used for individual energy optimization of single train runs by avoiding unnecessary braking in front of block signals and maximizing cruising distances. The method is tested and evaluated on a representative line segment of the ELVA, the Railway Signaling Lab at RWTH Aachen University under realistic conditions. Energy consumptions are compared for different prediction time horizons at which the recommendations are available to the train's onboard system. In the examined test case of two trains, the energy-consumption could be decreased by up to 53% compared to operation without any rescheduling system. Thus, the proposed method is able to reduce energy consumption significantly.

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来源期刊
CiteScore
7.10
自引率
8.10%
发文量
41
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