Title of article
Adaptive sliding control of non-autonomous active suspension systems with time-varying loadings
Author/Authors
Chen، نويسنده , , Po-Chang and Huang، نويسنده , , An-Chyau، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2005
Pages
17
From page
1119
To page
1135
Abstract
An adaptive sliding controller is proposed in this paper for controlling a non-autonomous quarter-car suspension system with time-varying loadings. The bound of the car-body loading is assumed to be available. Then, the reference coordinate is placed at the static position under the nominal loading so that the system dynamic equation is derived. Due to spring nonlinearities, the system property becomes asymmetric after coordinate transformation. Besides, in practical cases, system parameters are not easy to be obtained precisely for controller design. Therefore, in this paper, system uncertainties are lumped into two unknown time-varying functions. Since the variation bound of one of the unknown functions is not available, conventional adaptive schemes and robust designs are not applicable. To deal with this problem, the function approximation technique is employed to represent the unknown function as a finite combination of basis functions. The Lyapunov direct method can thus be used to find adaptive laws for updating coefficients in the approximating series and to prove stability of the closed-loop system. Since the position and velocity measurements of the unsprung mass are lumped into the unknown function, there is no need to install sensors on the axle and wheel assembly in the actual implementation. Simulation results are presented to show the performance of the proposed strategy.
Journal title
Journal of Sound and Vibration
Serial Year
2005
Journal title
Journal of Sound and Vibration
Record number
1395441
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