Abstract
In order to evaluate the performance of heavy truck’s semi-active isolation systems, a half-vehicle dynamic model with three control cases including the seat controlled, the cab controlled, and the vehicle controlled is respectively established. Matlab/Simulink software and the fuzzy logic controller (FLC) are applied to simulate and control the semi-active isolation systems of the heavy truck under two types of step and random road surfaces. The weighted root-mean-square acceleration responses and the acceleration responses of the vertical driver’s seat and the cab’s pitch angle are chosen as the objective functions. The research results show that the vehicle’s ride comfort is significantly improved by three control cases. Especially, in two simulation studies, the vertical driver’s seat vibration and the cab shake are greatly decreased by using the cab controlled. Therefore, the cab controlled surpasses the other types of control for improving the driver’s ride comfort and controlling the cab shake.
Highlights
The market of the heavy truck was competing very fierce and the features of the heavy truck were claimed higher
All the results showed that the ride comfort of the vehicle was significantly improved in comparison with the passive suspension systems
All the results showed that the heavy truck’s suspension system was controlled increased the vehicle’s ride comfort and reduced road damage
Summary
The market of the heavy truck was competing very fierce and the features of the heavy truck were claimed higher. One of the most important requirements of the heavy truck is to improve heavy truck’s ride comfort and road friendless. The heavy truck’s passive suspension systems were studied and improved by using air suspension system, active, or semi-active suspension system in order to its capabilities of consuming less power, low cost and providing better ride quality [3,4,5,6]. The control methods such as PID control, Fuzzy logic control, Fuzzy-PID control, H Control were applied to control the vehicle’s suspension systems to improve the driver’s ride comfort as well as the safety of passengers [6,7,8,9]. All the results showed that the ride comfort of the vehicle was significantly improved in comparison with the passive suspension systems
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