摘要
为了提高汽车转向-侧倾运动的安全性,设计了主动悬架侧倾运动安全LQG控制器;建立了3自由度汽车转向-侧倾运动动力学模型,选择横向载荷转移率、侧倾角及其加速度构建汽车侧倾安全综合性能评价指标;为了解决现有设计方法无法跟踪系统干扰项(前轴转向角)和控制加权矩阵行列式等于零带来的控制向量无法求解的难题,将前轴转向角进行满足最小相位系统的微分变形,并与原系统方程组成增广系统方程,在综合性能评价指标中引入包含控制项的无穷小量,以满足LQG控制器设计条件;结合层次分析法和归一法,以鱼钩工况为基础,仿真获取汽车转向-侧倾运动统计数据,进而确定LQG控制器的加权系数,通过多工况数值仿真验证主动悬架侧倾运动安全LQG控制器的工作效果。仿真结果表明:新设计的LQG控制器不干扰驾驶人的转向操纵;与被动悬架相比,在鱼钩工况、蛇形穿桩工况和双移线工况下,采用LQG控制器的主动悬架可使汽车侧倾运动安全的主要评价指标即横向载荷转移率的方差分别降低了32.08%、32.82%、29.24%,侧倾角的方差分别降低了47.74%、44.19%、63.41%,侧倾角加速度的方差分别降低了87.30%、60.00%、86.39%,说明采用新设计LQG控制器的主动悬架可大幅度改善汽车侧倾运动安全性,且具有良好的转向工况适应性。
To improve the steering-rolling motion safety of vehicle,a LQG controller for active suspension was developed.A dynamics model with 3 degrees of freedom depicting vehicle steering-rolling motion was established.Lateral-load transfer ratio(LTR),rolling angle and its acceleration were chosen to construct the evaluating indexes of comprehensive performance for vehicle rolling motion safety.In order to solve the problem that the general design approachs couldn't track the system disturbance term,namely the steered angle of front axle,and the control vector couldn't be solved because the determinant of weighted control coefficient matrix equaled to zero,the new method was scheduled as follows:the steered angle of front axle was introduced into a differential equation in accord with the minimum phase system,the differential equation was combined with the original system equation into an augmented system equation,andthe infinitely small terms including control terms were added to the evaluating indexes of comprehensive performance to meet the design condition of LQG controller.Based on the analytic hierarchy process(AHP)and normalization method,the statistical data of automotive steering-rolling motion were obtained by simulation under fish-hook working condition,and then the weighted coefficients of LQG controller were determined.The working effects of LQG controller of active suspension for steering-rolling motion safety of vehicle were verified by numerical simulation under multiple working conditions.Simulation result shows that the developed LQG controller does not interfere with the steering operation of driver.Compared with the passive suspension,when the active suspension is regulated by the developed LQG controller under fish-hook working condition,slalom working condition and double-lane change working condition,the variances of LTR,namely the most important evaluating index of rolling motion safety,decrease by 32.08%,32.82%,and 29.24%,respectively,the variances of rolling angle reduce by 47.74%,
出处
《交通运输工程学报》
EI
CSCD
北大核心
2017年第5期138-148,共11页
Journal of Traffic and Transportation Engineering
基金
国家自然科学基金项目(51575239)
福建省自然科学基金项目(2017J01690)
关键词
汽车工程
主动悬架
侧倾稳定性
LQG控制器
增广系统方程
automotive engineering
active suspension
rolling motion safety
LQG controller
augmented system equation
