分布式全线控电动汽车可重构集成控制策略研究

项目名称： 分布式全线控电动汽车可重构集成控制策略研究

项目编号： No.51505178

项目类型： 青年科学基金项目

立项/批准年度： 2016

项目学科： 机械、仪表工业

项目作者： 陈国迎

作者单位： 吉林大学

项目金额： 20万元

中文摘要： 分布式全线控电动汽车是一种四轮可独立驱动\独立制动\独立转向的线控电动车辆。与传统汽车相比，它具有更多可控自由度。通过对该平台底盘集成控制系统的设计，可以发挥各车轮快速响应、独立可控的特点，有效提升整车的性能。目前国内外对该平台集成控制的研究是主要从改善单一动力学性能角度出发，且未将系统执行器的特性考虑到控制框架中，这样无法发挥该平台全线控、多执行器冗余的性能优势。本项目以已开发的分布式全线控电动汽车为原型，通过对分布式全线控电动汽车多级优化集成控制架构的研究、冗余系统的故障重构特性研究以及集成控制架构下的执行器的同步偏差耦合控制研究，拟建立一套具有故障容错功能、可以充分发挥该平台性能优势的多目标集成控制策略，使其达到最优的操纵稳定性和安全性，为新一代电动汽车研发并走向实用提供理论基础和技术支持。

中文关键词： 分布式全线控电动汽车；重构；集成控制；非线性预测控制

英文摘要： Four-Wheel independently actuated electric vehicle is a new type of vehicle, of which all wheels can be driven, brake and steered independently. Compared with conventional vehicles, the electric vehicle has more controllable degrees of freedom, and it’s steering, drive and braking system can be coordinated to ensure each tire of the vehicle having maximum adhesion margin through the integrated design of the chassis control system. At present, the studies on it in home and abroad are main focus on how to improve some single vehicle dynamic performance, and do not take the actuator characteristics into consideration. These don’t fully use the advantage of the vehicle’s features that it is drive-by-wire and with redundant actuators. Based on the already built platform of distributed electric vehicle with drive-by-wire, in the paper this project will do the following research: based on hierarchical optimization building the integrated control architecture for the distributed actuators, studying the reconfigurable strategy under some actuator fault, using deviation compensation strategy to solve the problem of synchronous control for multi-acuator. Through these researching, the project is to propose a multiple-target integrated chassis control strategy with fault-tolerance ability which can give full play to the vehicle’s performance advantages and improve the handling, stability, economy and reliability. The research results will provide theoretical foundations and technical supports for the development of the new-generation electric vehicle.synchronous control for multi-acuator. Through these researching, the project is to propose a multiple-target integrated chassis control strategy with fault-tolerance ability which can give full play to the vehicle’s performance advantages and improve the handling, stability, economy and reliability. The research results will provide theoretical foundations and technical supports for the development of the new-generation electric vehicle.

英文关键词： Four-wheel independently actuated electric vehicle;reconfiguration;integrated chassis control ;nonlinear predictive control