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Engineering    2017, Vol. 3 Issue (1) : 122 -129
Research |
High-Speed EMU TCMS Design and LCC Technology Research
Hongwei Zhao1(),Zhiping Huang2,Ying Mei2
1. China Academy of Railway Sciences, Beijing 100081, China
2. Beijing Zongheng Electro-Mechanical Technology Development Co., Beijing 100094, China

This paper introduces the high-speed electrical multiple unit (EMU) life cycle, including the design, manufacturing, testing, and maintenance stages. It also presents the train control and monitoring system (TCMS) software development platform, the TCMS testing and verification bench, the EMU driving simulation platform, and the EMU remote data transmittal and maintenance platform. All these platforms and benches combined together make up the EMU life cycle cost (LCC) system. Each platform facilitates EMU LCC management and is an important part of the system.

Keywords Electrical multiple unit      Train control and monitoring system      Train communication network      Life cycle cost      Development platform      Testing bench      Simulation      Remote data transmittal     
Corresponding Authors: Hongwei Zhao   
Just Accepted Date: 10 February 2017   Online First Date: 15 February 2017    Issue Date: 02 March 2017
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Hongwei Zhao
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Hongwei Zhao,Zhiping Huang,Ying Mei. High-Speed EMU TCMS Design and LCC Technology Research[J]. Engineering, 2017, 3(1): 122 -129 .
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1   Zhao H, Mei Y. EMU TCMS digital design and validation platform technical report. Beijing: China Academy of Railway Sciences; 2015 May. Project No. 2013DFA82220. Chinese.
2   Zhao H, Wang L, Zhu G. High-speed train network control system half-physical platform technical report. Beijing: China Academy of Railway Sciences; 2010 Jun. Report No.: TY2861. Chinese.
3   Zhao H, Xie B, Xia F, Zheng X, Gao F. Research report on fault oriented safety control and integrated testing and simulation technology for traction system of high speed train. Railway Technical Innovation 2015;(2):31–9. Chinese.
4   Wang H, Huang Z, Hu H, Wang L. High-speed train remote diagnosis maintenance mode research. China Rail 2012;(4):41–4. Chinese.
5   Lu X, Zhao H, Huang Z, Gao F. High-speed train running safety monitoring technology. Rail Locomot Car 2011;(2):34–7. Chinese.
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