基于“车-椅-人”模型的车辆座椅悬架H_∞控制研究
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摘要
现代车辆,特别像货车、工程车辆和军用战车等车辆,由于其自身车辆悬架性能相对较差以及运行路况恶劣,在运行时会产生激烈的振动,使得这些车辆的驾驶者长时间承受低频高强度的乘坐振动,容易引发脊椎畸变和胃病等职业性疾病,严重损害司机的身心健康,大大降低工作效率。因此,研究座椅悬架系统,采用切实可行的技术措施,隔离由于地面激励引起的通过底盘和座椅传动到人体的振动,是改善这些车辆乘坐舒适性的一个重要途径。而国内对高性能的车辆座椅悬架的研究较少,因此研究结构简单高性能的座椅悬架是十分必要的。
本文提出的座椅悬架,旨在提高司机的驾驶和乘坐舒适性。本研究结合教育部立项的“列车车辆主动隔振及预见控制研究”和“列车主动悬挂系统及智能模糊控制研究”,建立了车辆座椅悬架系统动力学模型及数学模型,并借助MATLAB软件对基于最优控制策略和鲁棒控制策略的整个机电系统进行了仿真研究,大量的仿真研究表明:鲁棒控制策略能使车辆座椅半主动悬架系统较好抑制垂直振动加速度,在共振频率附近其减振幅度能达到40%~50%,大大了提高乘坐的舒适性。最后在仿真研究的基础上,设计和建造了磁流变阻尼器的特性实验平台,进行了关键部件——磁流变阻尼器的特性实验研究,为将来对整个系统进行实验做了必不可少的前期准备。
本文研究的主要内容如下:
1.建立了四自由度的“车-椅-人”系统的动力学和数学模型。
2.为车辆座椅半主动悬架设计了最优控制器,并运用MATLAB软件进行了仿真分析
3.采用H∞鲁棒控制策略为车辆座椅半主动悬架设计了鲁棒控制器,并运用MATLAB对座椅悬架系统进行了仿真分析,并与最优控制器的控制效果进行了对比。
4.设计了磁流变阻尼器实验台架并进行了其特性实验研究。
Modern vehicle especially the trucks and the construction vehicleswill vibrate seriously when working. Because their suspension system isrelatively worse and the environment of the road they work at is terriblybad. What is worst is that the seat suspension systems of these vehiclesare almost passive suspension. The damping and the stiffness coefficientof the passive suspension can not be adjusted by the change of theenvironment of the road. So its competence of reducing vibration islimited. Thus the drivers of these vehicles are suffering from seriousvibration of the seat which will significantly affect their health.
In vehicle seat semi-active suspension system we use the MRdamper to take place of the traditional damper. This research wassponsored by the Ministry of Education. In this dissertation, dynamicalmodel and mathematical model is established for the semi-active system.MATLAB is used for the simulation of the whole mechanical andelectrical system based on optimal control and H∞control theory. Theresults of the simulation show that the vehicle seat suspension systemwith H∞controller can markedly reduce the vertical vibrationacceleration of the seat by 45%~50% and effectively improve thecomfort of driver. The static characteristic of MR damper, one key part ofvehicle seat semi-active suspension,is measured to prepare for testing thewhole system.
The major content of this dissertation is as follows:
1.The dynamic and mathematical model of the four DOF"Vehicle-Seat-People" system is built.
2.An optimal regulaor for the"Vehicle-Seat-People" system isdesigned and simulated with MATLAB.
3.A H∞controller for the "Vehicle-Seat-People" system is designedand simulated with MATLAB.
4.Based on the research of the simulation, the experiment devices isdesigned and built for MR damper characteristic testing.
本文提出的座椅悬架,旨在提高司机的驾驶和乘坐舒适性。本研究结合教育部立项的“列车车辆主动隔振及预见控制研究”和“列车主动悬挂系统及智能模糊控制研究”,建立了车辆座椅悬架系统动力学模型及数学模型,并借助MATLAB软件对基于最优控制策略和鲁棒控制策略的整个机电系统进行了仿真研究,大量的仿真研究表明:鲁棒控制策略能使车辆座椅半主动悬架系统较好抑制垂直振动加速度,在共振频率附近其减振幅度能达到40%~50%,大大了提高乘坐的舒适性。最后在仿真研究的基础上,设计和建造了磁流变阻尼器的特性实验平台,进行了关键部件——磁流变阻尼器的特性实验研究,为将来对整个系统进行实验做了必不可少的前期准备。
本文研究的主要内容如下:
1.建立了四自由度的“车-椅-人”系统的动力学和数学模型。
2.为车辆座椅半主动悬架设计了最优控制器,并运用MATLAB软件进行了仿真分析
3.采用H∞鲁棒控制策略为车辆座椅半主动悬架设计了鲁棒控制器,并运用MATLAB对座椅悬架系统进行了仿真分析,并与最优控制器的控制效果进行了对比。
4.设计了磁流变阻尼器实验台架并进行了其特性实验研究。
Modern vehicle especially the trucks and the construction vehicleswill vibrate seriously when working. Because their suspension system isrelatively worse and the environment of the road they work at is terriblybad. What is worst is that the seat suspension systems of these vehiclesare almost passive suspension. The damping and the stiffness coefficientof the passive suspension can not be adjusted by the change of theenvironment of the road. So its competence of reducing vibration islimited. Thus the drivers of these vehicles are suffering from seriousvibration of the seat which will significantly affect their health.
In vehicle seat semi-active suspension system we use the MRdamper to take place of the traditional damper. This research wassponsored by the Ministry of Education. In this dissertation, dynamicalmodel and mathematical model is established for the semi-active system.MATLAB is used for the simulation of the whole mechanical andelectrical system based on optimal control and H∞control theory. Theresults of the simulation show that the vehicle seat suspension systemwith H∞controller can markedly reduce the vertical vibrationacceleration of the seat by 45%~50% and effectively improve thecomfort of driver. The static characteristic of MR damper, one key part ofvehicle seat semi-active suspension,is measured to prepare for testing thewhole system.
The major content of this dissertation is as follows:
1.The dynamic and mathematical model of the four DOF"Vehicle-Seat-People" system is built.
2.An optimal regulaor for the"Vehicle-Seat-People" system isdesigned and simulated with MATLAB.
3.A H∞controller for the "Vehicle-Seat-People" system is designedand simulated with MATLAB.
4.Based on the research of the simulation, the experiment devices isdesigned and built for MR damper characteristic testing.
引文
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[2] 周一鸣.拖拉机人机工程学.北京:机械工业出版社,1988
[3] 杨英.现代工程机械司机室宜人性设计及振动控制研究:[博士学位论文].沈阳:东北大学,2000
[4] 李国英,万叶青.拖拉机驾驶座结构及其减振性能.拖拉机与农用运输车,1996(5):16~20
[5] 阎以诵,靳晓雄.工程机械动力学.上海:同济大学出版社,1986
[6] 刘自侠.汽车座椅的力学模型设计.天津汽车,2004(1):11~13
[7] 何炎权.基于磁流变阻尼器的半主动座椅悬架模糊控制研究:[硕士学位论文].长沙:中南大学,2005
[8] Goodall R M, Kortam W. Active control in ground transportation -a review of the state of the art and future potential. VSD, 1983(12):225~257
[9] EL Madany. M, M. Stochastic. Optimal Control of Highway Tractors with Active Suspension. Vehicle System Dynamics, 1988, 7:193~210
[10] 陆森林.农用三轮运输车座椅振动分析.拖拉机与农用运输车,1995(4):7~10
[11] Stein J, Ballo I. Active vibration control system for the drivers seat for off-road vehicles. Vehicle System Dynamics, 1991, 20:57~78
[12] Stein J.A driver's seat with active suspension of electro-pneumatic type. Transactions of the ASME, 1997(119):230~235
[13] 杨英,张国忠.工程车辆驾驶座椅悬架系统及控制模型.矿山机械,2000,8(2):26~28
[14] 卫良保,陶元芳.叉车座椅的振动特性.工程机械,2001(8):9~11
[15] 许其春,兰风崇.林用车辆座椅动态特性的确定和测试分析.林业机械,1992(1):14~19
[16] 蒋祖华,黄斌,赵昱卿.公交车驾驶员座椅系统舒适性的应用研究.工业工程与管理,2003(4):20~24
[17] Choi S B, Choi J H, Lee Y S, etal..Vibration control of an ER seat suspension for a commercial vehicle. Journal of Dynamic Systems Measurement and Control. 2003, 125(1): 60~68
[18] 徐晓美,朱思洪.驾驶员座椅悬架系统研究综述.拖拉机与农用运输车,2005(4):1~7
[19] 白胜勇,靳晓雄.工程机械悬置式座椅动态参数设计研究.同济大学学报,1999,27(1):74~77
[20] 麻文焱,王羽,于向军.货车座椅动态参数优化设计试验研究.汽车技术,2003(7):17~18
[21] Hostens, Deprcz K. An improved design of air suspension for seats of mobile agricultural machines. Jounal of Sound and Vibration, 2004, 276: 141~156
[22] Wilson D A, Sharp R S, Hassan S A. The application of linear optimal control theory to the design of active automotive Suspensions. VSD, 1986(15): 105~118
[23] 喻凡,郭孔辉.自适应主动悬架对车辆性能改进的潜力.中国机械工程,1998,9(6).67~69
[24] 喻凡,郭孔辉.车辆悬架的最优自适应与自校正控制,汽车工程.1998,4
[25] 赵桂军.四分之一车主动悬架的鲁棒控制和在线自适应控制:[硕士学位论文].吉林:吉林大学,2002
[26] Ray L R. Robust linear-optimal control laws for active suspension systems. Advanced Automotive Technologies, ASME, 1991 (40): 291~302
[27] Moran A, Nagai M. Analysis and design of active suspensions by H_∞ robust control theory. ASME Int. J. Ⅲ, 1992, 35: 427~437
[28] Dai H Y, Zhang H Q, Zhang W H. Robust performance analysis of active suspension with model uncertainty using structured singular value, μ approach. Vehicle System Dynamics Supplement, 1998(28): 635~647
[29] 孙求理,张洪欣.主动悬架的发展和技术现状.世界汽车,1996,5:4~6
[30] 林榆馨.电子控制悬架的应用.上海汽车,1996(4):18~29
[31] Fujioka T, MochizukiT. Optimal preview control of an active suspension system for railway vehicles. Transcanctions of the Japan Society of Mechanical Enfineers, Part C, 1995, 61(581): 65~70
[32] Yu F, Crolla D A. Wheelbase preview optimal control for active vehicle suspensions.机械工程,1998,11(2):122~129
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