A model of the integrated dynamic control system of electric power steering (EPS) and active-suspension is set up according to the principle of vehicle system dynamics.
文章根据汽车系统动力学原理,建立了汽车电动助力转向和主动悬架集成控制的动力学模型。
According to the fundamental principle of vehicle dynamics, this paper established a full car model of Active Suspension System (ASS) and Electric Power Steering System (EPS).
本文根据车辆动力学基本原理,建立了主动悬架与电动助力转向系统的整车模型。
Then vertical contact dynamics of tire is analyzed with contact patch considered, and that of the system composed of wheel, suspension and car body are analyzed by using modal synthesis method.
然后计算了考虑接地印迹长度的垂直接地动特性,并采用模态综合方法分析了车轮、悬架与车身组合系统的特性。
Recently, the research and exploration of the active suspension and the vibration control system are the international foreland issue in the field of vehicle dynamics.
近年来,主动车辆悬架及其振动控制系统的研究和开发是车辆动力学领域的国际性前沿课题。
Recently, the research and exploiture of the suspension and the vibration control system are the international foreland problem in field of vehicle dynamics.
近年来,车辆悬架及其振动控制系统的研究和开发是车辆动力学领域的国际性前沿课题。
The result will give a basis for free design of shock absorber and vehicle ride dynamics system and lay solid foundation for investigation of suspension controlling and ground damage systematically.
本文研究结果可为减振器及汽车乘座动力学系统自主设计提供依据,也可为可控悬架及路面损坏问题的研究奠定基础。
The feasibility of applying multi-body dynamics theory and co-simulation technology to semi-active suspension system of tracked vehicle is proved by simulation results.
从而验证了多体理论和联合仿真技术在履带车辆半主动悬挂技术的可行性。
The feasibility of applying multi-body dynamics theory and co-simulation technology to semi-active suspension system of tracked vehicle is proved by simulation results.
从而验证了多体理论和联合仿真技术在履带车辆半主动悬挂技术的可行性。
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