PReS: Power Peak Reduction by Real-time Scheduling for Urban Railway Transit

2019 IEEE Sustainability through ICT Summit (StICT) Pub Date : 2019-02-21 DOI:10.1109/STICT.2019.8789376

Zekun Yang, Yu Chen, N. Zhou, Shiqiong Tong

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引用次数: 1

Abstract

Railway transportation is one of the most popular options for Urban Massive Transportation Systems (UMTS) because of many attractive features. A robust electric power supply is essential to enable normal operation. However, the power peaks appearing at the start time of the vehicles put heavy pressure on the power grid. Reduction of the power peak is a key issue in improving urban railway transit's power efficiency. Researchers have tried to address this problem by making a delicate timetable, but this method often failed to serve the purpose because of the punctuality problem. In this work, taking advantage of real-time estimation of the single train's power consumption, an online Power peak Reduction by real-time Scheduling (PReS) solution for trains' departure is proposed. Particularly, a Binary Integer Programming (BIP) model is introduced that is able to avoid power consumption peak caused by multiple trains departure simultaneously. The simulation result verified that the proposed real-time scheduling approach can effectively reduce the occurrences of power peak without bringing in additional train travel delay.

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PReS:基于实时调度的城市轨道交通功率降峰

铁路运输是城市大规模交通系统(UMTS)最受欢迎的选择之一，因为它有许多吸引人的特点。稳定的电力供应是保证正常运转所必需的。然而，在车辆启动时间出现的功率峰值给电网带来了沉重的压力。降低电力峰值是提高城市轨道交通用电效率的关键问题。研究人员试图通过制定一个精确的时间表来解决这个问题，但由于守时问题，这种方法往往无法达到目的。本文利用单列列车功耗的实时估计，提出了一种列车发车时实时调度的在线功率降峰方案。特别地，提出了一种二进制整数规划(BIP)模型，该模型能够避免多列列车同时发车造成的电力消耗峰值。仿真结果验证了所提出的实时调度方法在不增加列车运行延误的情况下，能有效地减少功率峰值的发生。

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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2019 IEEE Sustainability through ICT Summit (StICT)

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