Threshold Iterative Learning Control of Interior Pressure Fluctuation of High-Speed Train
ID:84 View Protection:ATTENDEE Updated Time:2021-08-19 16:16:40 Hits:405 Oral Presentation

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Abstract
When a high-speed train passes through a long tunnel, the tunnel pressure wave induces the interior pressure fluctuation through the gaps, the air ducts and the car body deformation. The traditional passive control algorithm of closing the air ducts for a fixed period may fail to meet the air pressure comfort and the fresh air amount inside the vehicle at the same time, so a novel active control algorithm needs to be established. Firstly, a multi-factor coupling transfer process of internal and external air pressure is studied and modelled, which takes the nonlinear characteristics of the gaps, the air ducts and the car body deformation into consideration. Then, the threshold iterative learning control algorithm (TILC) of interior pressure fluctuation is designed, in which the opening and closing time of the air ducts matches the characteristics of the interior air pressure. The simulation results show that the threshold iterative learning control matches the opening and closing time of the air ducts with the characteristics of the interior air pressure. Besides, requirements for a better riding comfort and a reasonable air quality will be achieved with TILC applied, by comparing with the performances in the uncontrolled condition and under the traditional  passive control algorithm.
Keywords
High-speed train; Interior pressure fluctuation; Threshold iterative learning control
Speaker
Lu Yang
Southwest Jiaotong University

Submission Author
Chunjun Chen Southwest Jiaotong University;Technology and Equipment of Rail Transit Operation and Maintenance Key Laboratory of Sichuan province
Lu Yang Southwest Jiaotong University
Zhiying He Southwest Jiaotong University
Lixia Huang Chengdu Technological University
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Important Date
  • Conference Date

    Nov 01

    2022

    to

    Nov 03

    2022

  • Oct 30 2022

    Draft paper submission deadline

  • Nov 09 2022

    Registration deadline

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