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。
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.
主动悬架和电动助力转向集成控制系统能有效地提高车辆操纵轻便性、行驶平顺性。
The active suspension and electric power steering integrated control system indeed improves the vehicle handling and ride comfort.
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。
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).
汽车主动悬架和电动助力转向系统是汽车的两个重要的子系统。
The active suspension system and the electric power steering system are two important subsystems of the vehicle.
分析汽车转向时转向系与悬架对车辆综合性能的影响,并应用模糊逻辑控制理论,设计了主动悬架系统与电动助力转向系统集成控制器。
The influence of the steering and suspension system to the performance of the vehicle is analyzed, and fuzzy logic control theory is used.
将汽车电动助力转向系统(EPS)模型、转向模型和主动悬架系统(ass)模型相结合,建立了整车系统的动力学模型。
Combining automotive Electrical Power steering System (EPS) model and steering model with Active Suspension System (ASS), the paper set up a full car dynamic model.
将汽车电动助力转向系统(EPS)模型、转向模型和主动悬架系统(ass)模型相结合,建立了整车系统的动力学模型。
Combining automotive Electrical Power steering System (EPS) model and steering model with Active Suspension System (ASS), the paper set up a full car dynamic model.
应用推荐