Abstract
AbstractThe main objective of ground vehicle suspension systems is to isolate a vehicle body (sprung mass) from road irregularities in order to maximize passenger ride comfort, control the attitude of the vehicle on the road, and retain continuous road–wheel contact in order to provide vehicle holding quality. An appropriate active suspension design must resolve the inherent tradeoffs between ride comfort, road holding quality, and suspension travel. In this study, a robust controller for the active suspension of an off‐road, high‐mobility tracked vehicle is designed, for the first time, using quantitative feedback theory (QFT). A simulation model of a single suspension unit of the M‐113 armored personnel carrier vehicle was used to achieve a proper active suspension design. Two measured states of the 3‐degrees‐of‐freedom mathematical model were used as feedback signals in a cascaded SISO control system. The nonlinear dynamics of the tracked vehicle suspension unit was represented as a set of linear time invariant (LTI) transfer functions, which were identified with the Fourier integral method. Computer simulations of the vehicle with passive and active suspension systems over different terrain profiles are provided. A significant reduction of the vertical accelerations induced to the sprung mass (e.g., ride comfort improvement) was achieved while keeping the road‐arm between suspension travel limits (e.g., handling quality). Copyright © 2001 John Wiley & Sons, Ltd.
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More From: International Journal of Robust and Nonlinear Control
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