Study on the Time Lag between Steering Input and Vehicle Lateral Acceleration Response under Different Key Vehicle Parameters

Guang Ming Dong; Jin Chen; Nong Zhang

doi:10.4028/www.scientific.net/AMM.226-228.681

Paper Titles

Modeling and Simulation of Hydraulic Turnover Device for Large Bearing House
p.660

Dynamic Analysis of the Rotor System with a Semi-Elliptical Fronted Crack on the Shaft
p.665

The Performance Analysis of Vertical Automatic Tool Changer System
p.672

Investigation of Human Masticatory Movements Using ADAMS and MATLAB/SIMULINK
p.677

Study on the Time Lag between Steering Input and Vehicle Lateral Acceleration Response under Different Key Vehicle Parameters
p.681

Impact Dynamics of Multi-Link Robots with Link and Joint Flexibility
p.685

A Linear Stepping Piezoelectric Motor Using Inertial Impact Driving
p.693

The Discretization Methods of a Rotating Flexible Cantilever Beam
p.697

A Hybrid Finite Element-Analytical Approach for Dynamic Analysis of a Micro-Resonator Driven by Electrostatic Combs
p.708

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 226-228Study on the Time Lag between Steering Input and...

Study on the Time Lag between Steering Input and Vehicle Lateral Acceleration Response under Different Key Vehicle Parameters

Abstract:

A passively suspended road vehicle rolls outwards under the influence of lateral acceleration when cornering, which is very dangerous under large lateral acceleration. In this paper, time lag between steering input and vehicle lateral acceleration response is systematically studied to implement the active roll control algorithm from the viewpoint of vehicle system dynamics. A 3 DOF yaw-roll vehicle model is established based on vehicle lateral, roll and yaw dynamics. Vehicle parameters of a 1997 Jeep Cherokee is used for parametric study, where the influences of vehicle velocity, steering frequency, mass, length, roll, yaw moment of inertia, position of vehicle centre of gravity, and tyre cornering stiffness are studied via numerical simulation. The analysis results will help improve the real time rollover warning/control algorithm design for vehicle safety.