スライディングモード制御法を用いた制動力配分と四輪操舵の協調制御による車両の操縦性安定性向上(機械力学,計測,自動制御)

概要

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The sliding mode control theory facilitates the design of nonlinear control system and also has high robustness, which controls the left and right distribution of braking forces and the four-wheel-steering cooperatively. Using the sliding mode control theory, this paper proposes a practical method for improving the step response and stability of automobiles. Our theory is composed of the feed-forward control function on steering angle and the feedback control function through the differences of actual and target characteristics of vehicle dynamics, that are yaw rate and lateral acceleration. Computer simulation confirmed that when the vehicle applied this control system an improvement of the maneuverability and stability on cornering behaviors with braking was realized. In addition, our data suggest that this system makes it possible to achieve good control effects on low frictional road and the damaged road. Moreover, we report the result that was examined on the dynamic distribution method to make the load rate of four wheels with longitudinal and lateral forces uniform as much as possible, when the direct yaw moment element as the control signal is converted into the longitudinal force of each tire.
一般社団法人日本機械学会の論文
2002-07-25