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Online detection and control of car body low-frequency swaying in railway vehicles

Online detection and control of car body low-frequency swaying in railway vehicles
Online detection and control of car body low-frequency swaying in railway vehicles
Low-frequency swaying is an abnormal vibration of railway vehicles. It is manifested by a low-frequency and high-amplitude swaying of the car body, which continues for a period of time, posing a significant threat to the passengers’ ride comfort and even the vehicle operation safety. However, the complexity of swaying makes the alleviation of this hazard by the conventional suspension parameters and available wheel-rail profile optimisation schemes quite problematic. This study analyses the specifics of vibration signal detection and active low-frequency vibration absorption, based on which a comprehensive set of implementable and universal process approaches to detect and control the low-frequency swaying is proposed. First, the intrinsic parameters of various stages of the swaying signal were obtained via the wavelet packet transform. Based on this, two online detection methods based on a single intrinsic parameter and a combination of intrinsic parameters were proposed. Subsequently, an active low-frequency inerter-spring-damper (ISD) type dynamic vibration absorber (DVA) control strategy was adopted to suppress low-frequency swaying. Finally, full-vehicle models with passive suspension and active low-frequency ISD-DVA were established to investigate the effect of online detection and control of low-frequency swaying. The results obtained proved that the proposed method could promptly detect and accurately identify different swaying stages of the railway vehicle, and the active ISD-DVA is instrumental in the low-frequency swaying elimination and overall improvement of the vibration performance of railway vehicle systems.
0042-3114
70-100
Xia, Zhanghui
780baba8-690a-470a-a606-ae8309880258
Zhou, Jinsong
5302ef52-fd22-4b4d-baa6-3c640dd17f17
Liang, Jianying
711a515d-3358-4c1c-beb0-0144fb18641f
Ding, Sansan
60bce7ce-ac19-419e-8867-3c6c231fc2fa
Gong, Dao
20b951f6-e6d0-4da9-874a-263a7d0c29d1
Sun, Wenjing
697ae912-77f1-43f4-b7ee-38cf7fb986b2
Sun, Yu
c0065bc9-12a2-4777-91f2-30238b815d04
Xia, Zhanghui
780baba8-690a-470a-a606-ae8309880258
Zhou, Jinsong
5302ef52-fd22-4b4d-baa6-3c640dd17f17
Liang, Jianying
711a515d-3358-4c1c-beb0-0144fb18641f
Ding, Sansan
60bce7ce-ac19-419e-8867-3c6c231fc2fa
Gong, Dao
20b951f6-e6d0-4da9-874a-263a7d0c29d1
Sun, Wenjing
697ae912-77f1-43f4-b7ee-38cf7fb986b2
Sun, Yu
c0065bc9-12a2-4777-91f2-30238b815d04

Xia, Zhanghui, Zhou, Jinsong, Liang, Jianying, Ding, Sansan, Gong, Dao, Sun, Wenjing and Sun, Yu (2021) Online detection and control of car body low-frequency swaying in railway vehicles. Vehicle System Dynamics, 59 (1), 70-100. (doi:10.1080/00423114.2019.1664751).

Record type: Article

Abstract

Low-frequency swaying is an abnormal vibration of railway vehicles. It is manifested by a low-frequency and high-amplitude swaying of the car body, which continues for a period of time, posing a significant threat to the passengers’ ride comfort and even the vehicle operation safety. However, the complexity of swaying makes the alleviation of this hazard by the conventional suspension parameters and available wheel-rail profile optimisation schemes quite problematic. This study analyses the specifics of vibration signal detection and active low-frequency vibration absorption, based on which a comprehensive set of implementable and universal process approaches to detect and control the low-frequency swaying is proposed. First, the intrinsic parameters of various stages of the swaying signal were obtained via the wavelet packet transform. Based on this, two online detection methods based on a single intrinsic parameter and a combination of intrinsic parameters were proposed. Subsequently, an active low-frequency inerter-spring-damper (ISD) type dynamic vibration absorber (DVA) control strategy was adopted to suppress low-frequency swaying. Finally, full-vehicle models with passive suspension and active low-frequency ISD-DVA were established to investigate the effect of online detection and control of low-frequency swaying. The results obtained proved that the proposed method could promptly detect and accurately identify different swaying stages of the railway vehicle, and the active ISD-DVA is instrumental in the low-frequency swaying elimination and overall improvement of the vibration performance of railway vehicle systems.

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More information

Accepted/In Press date: 23 August 2019
Published date: 2 January 2021

Identifiers

Local EPrints ID: 492381
URI: http://eprints.soton.ac.uk/id/eprint/492381
ISSN: 0042-3114
PURE UUID: ad2daa18-0b23-4d70-acb4-af4192314f51

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Date deposited: 25 Jul 2024 16:48
Last modified: 25 Jul 2024 16:48

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Contributors

Author: Zhanghui Xia
Author: Jinsong Zhou
Author: Jianying Liang
Author: Sansan Ding
Author: Dao Gong
Author: Wenjing Sun
Author: Yu Sun

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