助力转向

继电子技术在发动机、变速器、制动器和悬架等系统得到广泛应用之后，国内外轿车和轻型汽车采用电动助力转向（ElectricPower-assistedSteering，简称EPS）系统逐步取代传统液压助力转向系统。

After electronic technology has been widely used in engine , transmission , brake and suspension , cars both made at home and abroad adopt Electric Power-assisted Steering system ( henceforth EPS ), which gradually replaces the traditional Hydraulic Power-assisted Steering system .

检查助力转向的液位。

Checking the fluid level of the power-assisted steering .

汽车电动助力转向（ElectricPowerSteeringsystem，简称EPS）控制系统是一种新型的汽车动力转向技术。

The automobile electric power steering is a new type of Automobile Power Steering system .

基于H∞鲁棒控制原理的电动助力转向系统研究

Steering system of electric power assist based on H_ ∞ Robust control

增强电动助力转向系统抗干扰性能的混合H2/H∞控制

Mixed H_2 / H_ ∞ control for enhancing anti-interference performance of EPS system

自适应模糊PID控制器在电动助力转向系统中的应用

Application of fuzzy self-tuning PID controller in electric power steering system

电动助力转向系统（ElectricPowerSteeringsystem，简称EPS），是汽车工程领域的热门课题之一。

Electric Power Steering System ( EPS ) is one of the research focuses of automotive engineering .

汽车电动助力转向与主动悬架系统的H∞集成控制

Integrated H_ ∞ control of electrical power steering and active suspension systems of an automobile

基于转矩输入对电动助力转向系统应用模糊PID进行助力控制。

Using fuzzy PID control strategy to assist motor control based on input torque .

电动助力转向（ElectricPowerSteering，简称EPS）控制系统是汽车转向系统发展的必然趋势。本文阐述了其基本组成及工作原理；

The Electric Power Steering ( EPS ) System is the necessary trend of automobile steering system .

分析了传统电动助力转向系统电机驱动电路H桥的优缺点，提出了基于智能功率开关的H桥驱动电路的一种优化方案。

In this paper , traditional H-bridge circuit for Electric Power Steering System was introduced and analysed .

基于PI电流环电动助力转向系统的鲁棒H∞控制

Robust H_ ∞ control of electric power steering system based on PI current loop

仿真结果证实，所设计的专家PID控制算法使电动助力转向系统具有良好的跟踪性和稳定性。

The results show that PID control enhances the system 's tracing ability and stability .

基于DSP的轮式特种车辆电动助力转向控制系统的设计

Design of Electric Power Steering Control System Used in Special Wheeled Vehicle Based on DSP Controller

电磁助力转向系统的模糊自调整PD控制研究

Fuzzy Auto-tuning PD Control of Electromagnetic Power Steering System

基于Adams与Matlab的汽车电动助力转向系统的联合仿真

Simulation of Electric Power Steering System for Automobile Based on ADAMS and Matlab

电动助力转向&EPS（ElectricPowerSteering）系统是一类近些年出现的新型动力转向系统。

Electric Power Steering ( EPS ) system , which emerged in recent years , is a new type of vehicle steering system .

针对汽车电动助力转向系统是一个非线性的多输入多输出系统的特点，提出了H∞鲁棒控制方法。

Aimed at the nonlinear MIMO system EPAS , the H ∞ Robust Control method was employed to design controller .

具有高新技术特征的电动助力转向系统（ElectricPowerSteering，缩写EPS），已成为轿车动力转向技术发展的主流。

Electric Power Steering ( EPS ) system with high-tech characteristics has been the mainstream of the power steering technology development .

电动助力转向系统（EPS）电动机电流控制的研究

Study on Control of Motor Current of Electric Power Steering System

应用MATLAB与ADAMS软件相联合，将电动助力转向控制系统与整车模型相结合，进行仿真试验。

The EPS and the vehicle model were implemented together by using MATLAB and ADAMS software .

基于ADAMS的电动助力转向系统仿真分析

Simulation Analysis of Electric Power Steering ( EPS ) System Based on ADAMS

基于闪存的汽车EPS电动助力转向系统故障容错设计

The Design of Electric Power Steering System Malfunction Concession with Flash Memory

汽车电动助力转向（EPS）技术的现状和发展趋势分析

Current Status and Development Tendency Analysis of Automobile Electrical Power Steering System

电动助力转向系统（ElectricPowerSteeringsystem，简称EPS）有着传统动力转向系统无法比拟的优势，代表着动力转向技术发展的必然趋势。

Electric power steering system has several advantages which the traditional power-steering system cannot compare with . It is the inevitable development trend of power steering technology .

分别建立了汽车电动助力转向（EPS）模型与主动悬架系统（ASS）模型，提出了EPS与ASS的集成模型。

The EPS model and ASS model of an automobile was built respectively .

提出了将基于模糊神经网络的PID控制策略用于电动助力转向系统中助力电机的控制。设计了电动助力转向试验台，并进行了电动助力转向系统的台架试验。

A PDI control strategy based on fuzzy neural network is applied to the control of motor in electric power steering system .

论文研究了传统转向系统的特性，助力转向系统的电机控制方式，通过理论推导、数学建模、Matlab软件分析计算，获得了两种转向系统主要动态性能分析结果。

The characters of traditional steering system and control method of motor are analyzed by building mathematical model and calculating with software Matlab .

电动助力转向系统（EPS）不是真正的按需型转向系统。

Electric Power Steering ( EPS ) system is not a real on-demand steering system .

目前，电动助力转向（简称EPS，ElectricPowerSteering）由于其集环保、节能、安全、舒适为一体，正越来越受人们的关注。

Since 1980s the electric power steering ( EPS ) is getting more and more attention because of its environmental harmlessness , fuel economic and comfort .