Suppression of vibrations in a nonlinear half-car model using a magneto-rheological damper

Angelo M. Tusset; Vinicius Piccirillo; Frederic C. Janzen; Wagner B. Lenz; Jeferson J. de Lima; JosÂ´e M. Balthazar; Reyolando M. L. R. da Fonseca Brasil

Angelo M. Tusset
Vinicius Piccirillo
Frederic C. Janzen
Wagner B. Lenz
Jeferson J. de Lima
JosÂ´e M. Balthazar
Reyolando M. L. R. da Fonseca Brasil

Abstract

The present work investigates the nonlinear response of a half-car model. The disturbancesÂ of the road are assumed to be sinusoidal. After constructing the bifurcation diagram, we use the 0-1Â test to identify chaotic motions. The main objective of this study is to eliminate chaotic behavior of the
chassis and reduce its vibrations. To accomplish this, a semi-active vehicle suspension control system,Â using magneto-rheological dampers, is proposed. The proposed semi-active control strategy consistsÂ of two nonlinear control laws: a feedforward control, and a feedback control. They are obtained byÂ considering the SDRE (State Dependent Riccati Equation) control, where the control parameter isÂ the voltage applied to the coils of the magneto-rheological dampers. Numerical results show that theÂ proposed control method is effective in significantly reducing of the chassis vibration, increasing,Â therefore, passenger comfort.