Abstract
The dynamics motion of a vehicle is inherently a nonlinear dynamics system especially at high speed. Majority of past researches on four-wheel steering (4WS) vehicle adopt easier way of modelling a control system based on vehicle with linear dynamic equation of motion. This paper study on the vehicle dynamics of an electric vehicle with 4WD and 4WS based on nonlinear vehicle dynamic approach. A numerical simulation was performed to analyse the variance of a linear model and nonlinear model during cornering at various constant speed. The results show that during low speed cornering at 10 km/h, the linear and nonlinear model produced similar steady state cornering based on the trajectory and yaw rotational speed. However, the variants of linear and nonlinear started to appear as the vehicle speed increase. By obtaining the steady state cornering speed, another numerical simulation was performed to analyse the characteristics of the 4WD and 4WS electric vehicle. A passive control of the rear wheels’ steer angle was implement in the simulation. The results show that the parallel steering mode decreased the yaw rotational speed which broaden the trajectory of the cornering, while the opposite steering mode increased the yaw rotational speed that led to a tighter trajectory during cornering.
Highlights
As the automotive industry progress in the usage of electric based transportation, demands on the stability, controllability, and feasibility of electric vehicle simultaneously increase
When assuming a 4WS vehicle as a linear system at high speed, other parameters that could influence the dynamic motion of the vehicle were neglected and producing a control model that is unsuitable to the real vehicle
The vehicle speed V is set to gradual increase at start until it reached to constant speed at 10 km/h with the front wheels’ steer angle θF = 5o that initiated at time period of t = 10s
Summary
As the automotive industry progress in the usage of electric based transportation, demands on the stability, controllability, and feasibility of electric vehicle simultaneously increase. By combining electric powered and by-wire control technology, major mechanical part can be downsized and allow freedom of layouts and driving potentials. Due to this reason, four-wheel drive (4WD) and four-wheel steering (4WS) system for electric vehicle is much more accomplishable compare to conventional vehicle. Much of past researches on four-wheel steering (4WS) vehicle adopt easier way of modelling a control system based on vehicle with linear dynamic equation of motion [1,2,3,4,5]. A numerical simulation was performed to analyse the variance of a linear model and nonlinear model of an electric vehicle with four-wheel drive and four wheel steering during cornering at various constant speed and at a constant front wheel steer angle. A passive control of the rear wheels’ steer angle was implement in the simulation
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