Observer-Based Controller With Integral Action For Longitudinal Vehicle Speed Control
2017 28TH IEEE INTELLIGENT VEHICLES SYMPOSIUM (IV 2017)(2017)
摘要
In this paper we consider the design and experimental validation of a longitudinal speed control. An observer-based controller with integral action (OBCI) is designed for Linear parameter-varying (LPV) systems. To deal with system modeling inaccuracies and the perturbation/measurements noises, the controller combines in the design procedure the integral action and H-infinity technique. Besides, a modified version of the well-known Young's relation is also used. Furthermore, the control design problem is transformed in a convex optimization problem through a set of Linear Matrix Inequalities (LMIs). The performances of the proposed approach are illustrated through experimental results.
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关键词
observer-based controller design,integral action,longitudinal vehicle speed control,OBCI design,linear parameter-varying systems,LPV systems,system modeling inaccuracies,perturbation noises,H∞ technique,modified Young's relation,convex optimization problem,linear matrix inequalities,LMI,measurement noises
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