An energy‐efficient train control approach with dynamic efficiency of the traction system

Fu, Chengcheng; Sun, Pengfei; Zhang, Jiahui; Yan, Keqin; Wang, Hongtao; Feng, Xiaoyun

doi:10.1049/itr2.12351

IET Intelligent Trans Sys

2023

DOI: 10.1049/itr2.12351

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An energy‐efficient train control approach with dynamic efficiency of the traction system

Chengcheng Fu

Pengfei Sun

Jiahui Zhang

et al.

Abstract: The efficiency of the train traction system (TTS) changes dynamically with operating conditions. In this paper, a more realistic dynamic efficiency model of TTS is established considering the power flow and non-linear loss of TTS. Based on the real model, the optimal control problem of the train with the minimum electric power consumption on the grid side is constructed. The optimal control condition (OCC) and corresponding control force are derived based on the Pontryagin maximum principle (PMP). A dynamic pr… Show more

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Cited by 2 publications

References 27 publications

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Energy‐efficiency optimization and control for electric vehicle platooning with regenerating braking

Li,

Wang

2023

IET Intelligent Trans Sys

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It is a critical problem to improve energy efficiency for electric vehicle platooning systems. Moreover, different from internal combustion engine vehicles, the electric engine has higher efficiency, and further regenerating braking is widely used to recycle part of the energy in the electric vehicle when it is braking. What is more, if vehicles take a formation to drive, they can save more energy. Combining all the favorable factors, this paper presents a two‐layer energy‐efficiency optimization strategy for electric vehicle platooning. The upper layer presents an optimization method to find the optimal velocities and distances between vehicles under different road conditions during the cruise status of the electric vehicle platooning. Due to the nonconvex cost function and considering regenerative braking, the optimization problem is addressed by the dynamic programming method combined with the successive convex approximation method. Further, the lower layer presents a real‐time Model Predictive Control (MPC) strategy, and it directly introduces the battery pack state of charge consumption as the input, which not only finishes the control mission but also consumes minimal energy. Finally, simulation results are provided to verify the effectiveness and advantages of the proposed methods.

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Energy‐efficiency optimization and control for electric vehicle platooning with regenerating braking

Li,

Wang

2023

IET Intelligent Trans Sys

View full text Add to dashboard Cite

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Towards artificial intelligence based rail driving assistance tool

Merlevede,

Enjalbert,

Vanderhaegen

et al. 2024

ITM Web Conf.

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This work proposes additional levels of progressive driver assistance expanding the traditional Grades Of Automation (GoA) in order to allow both higher level of automation and keeping the driver involved in driving task at the same time. The second contribution is the Digital Co-Driver which aims to bring the driver back in the train driving activity with the new GoA defined before, taking into account human involvement and driving skills. This framework is made up of several modules, each of which addresses a specific issue arising from the increased level of automation. The Driver State and Performance Monitoring Module monitors the driver’s involvement, situation awareness and performance. The Digital Adviser Module improves driver’s situational awareness, and the Digital Teacher Module improves his/her driving skills and knowledge of the system. Finally, the Safety Manager ensures the system’s compatibility with safety standards.

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An energy‐efficient train control approach with dynamic efficiency of the traction system

Cited by 2 publications

References 27 publications

Energy‐efficiency optimization and control for electric vehicle platooning with regenerating braking

Energy‐efficiency optimization and control for electric vehicle platooning with regenerating braking

Towards artificial intelligence based rail driving assistance tool

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