论文信息 - Robust H∞-output feedback control of decoupled automobile active suspension systems

Robust H∞-output feedback control of decoupled automobile active suspension systems

H/sup /spl infin//-output feedback control is applied to the control of automobile active suspensions based on a dynamic model of the full vehicle. The output feedback control is desirable from the viewpoint of implementation in the sense that it reduces the number of measurements drastically compared with state feedback used currently in suspension control. In this paper, the authors show that a linearized model can be block-decoupled by a similarity transformation, which reduces the controller complexity significantly. The uncertainties of the vehicle model are properly taken into account in the derivation of the H/sup /spl infin// controller. The controller is actually implemented in a commercial car, and the performance is evaluated both by simulations and experiments. The performance obtained proves to be quite satisfactory.

[1] Weber,et al. Active vibration isolation of truck cabs , 1984 .

[2] D. Hrovat,et al. Stability Robustness of LQG Active Suspensions , 1990, 1990 American Control Conference.

[3] John C. Doyle. Analysis of Feedback Systems with Structured Uncertainty , 1982 .

[4] Ali Galip Ulsoy,et al. Stability robustness of LQ and LQG active suspensions , 1994 .

[5] Kisaburo Hayakawa,et al. Application of H∞ control to active suspension systems , 1993, Autom..

[6] Thomas R. Kane,et al. THEORY AND APPLICATIONS , 1984 .

[7] Masaharu Sato,et al. Development of the Full Active Suspension by Nissan , 1990 .

[8] H. Kimura,et al. On the structure of H/sup infinity / control systems and related extensions , 1991 .

[9] J. K. Hedrick,et al. Alternative Control Laws for Automotive Active Suspensions , 1989 .

[10] Masao Nagai,et al. Analysis and Design of Active Suspensions by H∽ Robust Control Theory , 1992 .

[11] Hidenori Kimura,et al. H/sub infinity / control of an automotive active suspension , 1990, 29th IEEE Conference on Decision and Control.

[12] J. K. Hedrick,et al. Decoupled Active Suspension Design for Improved Automotive Ride Quality/Handling Performance , 1985 .

[13] D. Hrovat,et al. Optimal active suspension control based on a half-car model: an analytical solution , 1992 .