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- Title
Vibration Control of Car Body and Wheel Motions for In-Wheel Motor Vehicles Using Road Type Classification.
- Authors
Kim, Young-Jun; Sohn, Youngil; Chang, Sehyun; Choi, Seung-Bok; Oh, Jong-Seok
- Abstract
In-wheel motor vehicles are gaining attention as a new type of electric vehicle due to their efficient power units located inside each wheel hub. However, they are more susceptible to wheel resonance due to the increase in unsprung mass caused by the weight of the motor. This can result in both decreased ride comfort and driving stability. To resolve this issue, in this study, we aim to apply an optimal switching controller with a semi-active actuator—a magnetorheological (MR) damper. For the implementation of the optimal switching controller, road type classification is also carried out. An acceleration sensor is used for the road type classification, and the control logics include a ride comfort controller (the linear quadratic regulator (LQR_Paved Road)) and a wheel motion controller (LQR_Off Road) for improved driving stability. For paved roads, the LQR_Paved Road control input is applied to the MR damper. However, if a road type prone to wheel resonance is detected, the control logic switches to the LQR_Off Road. During the transition, a weighted average of both the LQR_Paved Road and LQR_Off Road control input is applied to the actuator. Computer simulations are performed to evaluate the vibration control performance, including the ride comfort and driving stability on various road profiles.
- Subjects
AUTOMOBILE vibration; MOTION control devices; MAGNETORHEOLOGY; MOTOR vehicles; ELECTRIC vehicles; CLASSIFICATION; MOTOR vehicle springs &; suspension
- Publication
Actuators, 2024, Vol 13, Issue 2, p80
- ISSN
2076-0825
- Publication type
Article
- DOI
10.3390/act13020080