An investigation into vehicle rollover prevention by coordinated control of active anti-roll bar and electronic stability program

被引：0

作者：

Seongjin Yim

Kwangki Jeon

Kyongsu Yi

机构：

[1] Seoul National University,Advanced Institutes of Convergence Technology

[2] KATECH,Body & Chassis System Research Center, Intelligent Vehicle Technology R&D Division

[3] Seoul National University,School of Mechanical and Aerospace Engineering

来源：

International Journal of Control, Automation and Systems | 2012年 / 10卷

关键词：

Active anti-roll bar; electronic stability program; linear quadratic static output feedback control; rollover prevention;

D O I：

暂无

中图分类号：

学科分类号：

摘要：

This paper presents a method for designing a controller that uses an active anti-roll bar (AARB) and an electronic stability program (ESP) for rollover prevention. ESP with longitudinal speed control (LSC) can carry out active braking to reduce vehicle speed and lateral acceleration to prevent a rollover. To enhance the rollover prevention capability of the ESP, an AARB is adopted. The controller for the AARB was designed based on linear quadratic (LQ) static output feedback (SOF) control methodology, which attenuates the effect of lateral acceleration on the roll angle and roll rate by control of the suspension stroke and the tire deflection of the vehicle. Although this AARB significantly increases ride comfort and rollover prevention, it has a drawback — the vehicle loses its maneuverability. Therefore, the ESP with LSC is used to overcome this drawback. Simulations showed that the proposed method was effective in preventing a rollover.

引用

页码：275 / 287

页数：12

共 43 条

[1]

Chen B.(2001)Differential-braking-based rollover prevention for sports utility vehicles with human-in-the-loop evaluations Vehicle System Dynamics 36 359-389

[2]

Peng H.(2004)Evaluation of vehicle dynamic control for rollover prevention International Journal of Automotive Technology 5 115-122

[3]

Ungoren A. Y.(2006)Rollover index-based rollover mitigation system International Journal of Automotive Technology 7 821-826

[4]

Peng H.(2009)Unified chassis control for rollover prevention and lateral stability IEEE Trans. on Vehicular Technology 58 596-609

[5]

Yoon J.(2002)Coordinated control of steering and anti-roll bars to alter vehicle rollover tendencies ASME Journal of Dynamic Systems, Measurement, and Control 124 127-132

[6]

Yi K.(1992)On active roll control for automobiles Vehicle System Dynamics 20 566-583

[7]

Kim D.(2002)Hybrid roll control using electric ARC system considering limited bandwidth of actuating module International Journal of Automotive Technology 3 123-128

[8]

Yoon J.(2006)Active roll control: system design and hardware-in-the-loop test bench Vehicle System Dynamics 44 489-505

[9]

Cho W.(2006)Investigation of active torsion bar actuator configuration to reduce vehicle body roll Vehicle System Dynamics 44 719-736

[10]

Koo B.(1996)Active roll control of articulated vehicles Vehicle System Dynamics 26 17-43

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