期刊
MACHINES
卷 11, 期 1, 页码 -出版社
MDPI
DOI: 10.3390/machines11010090
关键词
narrow tilting vehicle; drifting motion; robust controller
The narrow tilting vehicle has gained extensive public attention due to traffic congestion and environmental pollution. The active rolling motion control reduces the rollover risk caused by the vehicle's structure size. Drift motion control, which makes full use of the vehicle's dynamic performance and improves driving safety especially when tires reach their limits, reflects the latest research in regular-size vehicles.
The narrow tilting vehicle receives extensive public attention because of traffic congestion and environmental pollution, and the active rolling motion control is a traffic safety precaution that reduces the rollover risk caused by the structure size of the narrow vehicle. The drifting motion control reflects the relatively updated attentive research of the regular-size vehicle, which can take full advantage of the vehicle's dynamic performance and improve driving safety, especially when tires reach their limits. The narrow tilting vehicle drifting control is worthy of research to improve the driving safety of the narrow tilting vehicle, especially when tires reach the limit. The nonlinear narrow tilting vehicle dynamic model is established with the UniTire model to describe the vehicle motion characteristics and is simplified to reduce the computation of the drifting controller design. The narrow tilting vehicle drifting controller is designed based on the robust theory with uncertain external disturbances. The controller has a wide application, validity, and robustness and whose performance is verified by realizing different drifting motions with different initial driving motions. The narrow tilting vehicle drifting robust control has some practical and theoretical significance for more research.
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