Fuzzy Logic Control for Suspension Systems of Tracked Vehicles

Fuzzy Logic Control for Suspension Systems of Tracked Vehicles

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摘要 A scheme of fuzzy logic control for the suspension system of a tracked vehicle is presented. A mechanical model for the whole body of a tracked vehicle, which is totally a fifteen-degree-of-freedom system, is established. The model includes the vertical motion, the pitch motion as well as the roll motion of the tracked vehicle. In contrast to most previous studies, the coupling effect among the vertical, the pitch and the roll motions of the suspension system of a tracked vehicle is considered simultaneously. The simulation of fuzzy logic control under road surface with random excitation shows that the acceleration, pitch angle and roll angle of suspension system can be efficiently controlled. A scheme of fuzzy logic control for the suspension system of a tracked vehicle is presented. A mechanical model for the whole body of a tracked vehicle, which is totally a fifteen-degree-of-freedom system, is established. The model includes the vertical motion, the pitch motion as well as the roll motion of the tracked vehicle. In contrast to most previous studies, the coupling effect among the vertical, the pitch and the roll motions of the suspension system of a tracked vehicle is considered simultaneously. The simulation of fuzzy logic control under road surface with random excitation shows that the acceleration, pitch angle and roll angle of suspension system can be efficiently controlled.

作者于杨魏雪霞张永发

机构地区 State Key Laboratory of Explosion Science and Technology

出处《Journal of Beijing Institute of Technology》 EI CAS 2009年第1期37-40,共4页 北京理工大学学报（英文版）

关键词 suspension system tracked vehicle vibration control fuzzy logic control numerical simulation suspension system tracked vehicle vibration control fuzzy logic control numerical simulation

分类号 U463.33 [机械工程—车辆工程]

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2009年第1期

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Fuzzy Logic Control for Suspension Systems of Tracked Vehicles

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