首页|轮毂电机失效下分布式驱动电动汽车主动转向容错控制策略

轮毂电机失效下分布式驱动电动汽车主动转向容错控制策略

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为提高分布式驱动电动汽车在单轮或单边轮毂电机失效时的稳定性,提出了一种基于事件触发机制的主动转向容错控制策略.设计了基于线性矩阵不等式的故障状态观测器,建立了基于残差评估函数的容错切换机制;采用了Pareto最优理论的分布式模型预测协同控制策略,以实现车辆底盘主动转向系统和横摆力矩控制系统的容错控制最优分配机制.基于Matlab/Simulink软件和CarSim软件在硬件在环平台展开实验.结果表明:当轮毂电机发生恒偏差或变增益故障时,所设计的容错控制算法在低路面附着系数的双移线工况下,横摆角速度跟踪误差降低14.9%,侧向位移跟踪误差降低28.2%.因而,实现了分布式驱动电动汽车在轮毂电机失效下的容错性能和稳定性能.
Fault-tolerant control strategy for active steering of distributed driving electric vehicles under in-wheel motor failure
An active steering fault-tolerant control strategy was proposed based on an event triggering mechanism to improve the stability of distributed driving electric vehicles when a single wheel or single side in-wheel motors failed.A fault state observer based on linear matrix inequalities was designed,and a fault-tolerant switching mechanism based on residual evaluation function was established.The distributed-model predictive cooperative control strategy was adopted based on Pareto optimization theory to realize the optimal distribution mechanism of fault-tolerant control for vehicle chassis active steering system and yaw moment control system.Simulation experiments were carried out on the hardware-in-loop platform based on the integration of the software Matlab/Simulink and the software CarSim.The results show that the yaw rate displacement tracking error is reduced by 14.9%,and the lateral displacement tracking error is reduced by 28.2%,in the case of constant deviation or variable gain fault of in-wheel motor under double lane change condition with high/low road adhesion coefficients.Therefore,the fault tolerance and the stability of distributed driving electric vehicles are realized under the failure of wheel hub motor.

distributed driving electric vehiclesvehicle stabilityfault-tolerant control strategieshardware-in-loop platformdistributed-model predictive control

卢彦博、梁晋豪、殷国栋、冯吉伟、王凡勋

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东南大学,东南大学机械学院,南京,211189,中国

新加坡国立大学,土木与环境学院,新加坡,119077,新加坡

分布式驱动电车 汽车稳定性 容错控制策略 硬件在环平台 分布式模型预测控制

国家杰出青年科学基金国家自然科学基金资助项目国家资助博士后研究人员计划

5202512151975118GZC20240818

2024

10.3969/j.issn.1674-8484.2024.04.002

汽车安全与节能学报
清华大学

汽车安全与节能学报

CSTPCD北大核心
影响因子:0.748
ISSN:1676-8484
年,卷(期):2024.15(4)