#br# Vehicle Hydraulic Active Suspension Fault Diagnosis and Isolation Based on Residual Error Information

Abstract

Abstract:

To improve hydraulic vehicle active suspension system control performance,the hydraulic actuators and the car vertical acceleration sensor fault diagnoses and isolation method were put forward.The half-vehicle four degree-of-freedom hydraulic active suspension system dynamical model was firstly built,considering ordinary fault of hydraulic actuator and sensor,the suspension fault models were then built.A fault detection filter was designed by pole placement,and the actuators' deadlocking and gain faults,the sensors' gain fault were diagnosed through the residual error information.To fix the fault place accurately,the faults were isolated by the correlation coefficients and fault vector length values.Finally,under the MATLAB/Simulink environment,the considerable simulations were carried out to the fault suspension systems.The results show that the actuators or the sensors faults can be diagnosed sensitively when the residual error fluctuation exceeds a threshold;the vehicle hydraulic active suspension actuators' faults can be isolated accurately by the maximal correlation coefficient,and the car vertical acceleration sensor fault can be isolated accurately by the maximal correlation coefficient and the minimal fault vector length value. 

Key words: hydraulic active suspension, actuator fault, sensor fault, diagnosis, isolation

摘要：

为提高汽车液压主动悬架控制性能,提出一种针对液压作动器、车身垂向加速度传感器的故障诊断与隔离方法。建立四自由度汽车液压主动悬架动力学模型,并考虑液压作动器和传感器常见故障，建立悬架故障模型。采用极点配置方法设计故障检测滤波器，利用输出残差信息对作动器卡死和增益故障、传感器增益故障进行诊断。在此基础上，为准确诊断故障发生部位，利用相关系数和故障向量径长值对故障进行隔离。在MATLAB/Simulink环境下对故障悬架进行大量仿真计算,结果表明:残差波动超过一定阈值时可敏感地诊断出作动器或传感器故障;汽车液压主动悬架作动器故障采用最大相关系数准确隔离，车身垂向加速度传感器故障采用最大相关系数和最小故障向量径长值准确隔离。


关键词: 液压主动悬架, 作动器故障, 传感器故障, 诊断, 隔离

CLC Number:

U461.4

YANG Liu-Jing-1, 2, CHEN Mo-Wei-1, HONG Hong-Bei-1. #br# Vehicle Hydraulic Active Suspension Fault Diagnosis and Isolation Based on Residual Error Information[J]. China Mechanical Engineering, 2012, 23(14): 1746-1752.

杨柳青1, 2, 陈无畏1, 汪洪波1. 基于残差信息的汽车液压主动悬架故障诊断与隔离研究[J]. 中国机械工程, 2012, 23(14): 1746-1752.

References

[1]Yoshimura T, Teramura I. Active Suspension Con- trol of A One--wheel Car Model using Single Input Rule Modules Fuzzy Reasoning and a Disturbance Observer[J]. Journal of Zhejiang University Sci- ence, 2005,6A(4) : 251-256.
[2]Campos J,Davis L, Lewis F L,et al. Active Suspen- sion Control of Ground Vehicle Heave and Pitch Motions[C]//Proeeedings of the 7th Mediterranean Conference on Control and Automation. Haifa,Isra- el, 1999:28-30.
[3]Guia A, Melas M, Seatzu C, et al. Design of a Predic tire Semiactive Suspension System[J]. Vehicle Sys tern Dynamics, 2004,41 (4) : 277-300.
[4]Yetendje A,Seron M,De Dona J. Diagnosis and Actuator Fault Tolerant Control in Vehicle Active Sus- pension[C]//Third International Conference on In- formation and Automation for Sustainability. Mel- bourne,2007 : 153-158.
[5]Abbas C, Hassan N, Mustapha O D. Sensor Fault Detection, Identification and Fault Tolerant Control : Application to Active Suspension[C]// Proceedings of the 2006 American Control Conference. Minneap- olis,USA,2006:2351-2356.
[6]刘玉梅[1],苏建[1],曹晓宁[1],熊伟[2],宋学忠[3].基于模糊数学的汽车悬架系统故障诊断方法[J].吉林大学学报：工学版,2009,0(S2):220-224.
[7]Yu F,Crolla D A. An Optimal Self--tuning Control- ler for an Active Suspension[J]. Vehical System Dynamics,1998,29(1):51-65.
[8]王春行.液压控制系统[M].北京:机械工业出版社,2004.
[9]孟爱红[1],王良曦[1],晁志强[1],刘相波[1].车辆主动悬架液压伺服控制系统设计与仿真[J].液压与气动,2004(1):14-16.
[10]闻新等著.控制系统的故障诊断和容错控制[M],1998:334.
[11]杨伟.容错飞行控制系统[M].西安:西北工业大学出版社,2007.
[12]王孝武.现代控制理论基础[M].北京:机械工业出版社,2003.71-80.
[13]方敏[1],汪洪波[1],陈无畏[2].汽车主动悬架系统H∞控制器的降阶[J].控制理论与应用,2007,24(4):553-560.
[14]王莹 [1],方敏 [1],陈无畏 [2].基于4自由度车辆模型的电液主动悬架H∞控制[J].汽车工程,2004,26(1):9-12.
[15]俞立著.鲁棒控制线性矩阵不等式处理方法[M],2002:272.
[16]Kemin Z,Phalguna K R,Nike L,et al. Fault Diag- nosis and Reconfigurable Control for Flight Con- trol Systems with Actuator Failures [C]//43rd IEEE Conference on Decision and Control,ASME. Atlantis, Paradise Island,2004:5266-5271.
[17]Menke T E, Peter S M. Sensor/Actuator Failure Detection in the Vista F--16 by Multiple Model A- daptive Estimation[J]. IEEE Transactions on Aer- ospace and Electronic Systems, 1995,31 (4) : 1218- 1229.