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Robust H∞ control for nonlinear course system of unmanned surface vessel with polytopic uncertainty based on sum of squares

Yanwei Huang, Zhenyi Liu, Wenchao Huang, Shaobin Chen

2020Transactions of the Institute of Measurement and Control12 citationsDOI

Abstract

In this paper, the nonlinear robust [Formula: see text] control is investigated for nonlinear course control systems of unmanned surface vessel (USV) with uncertain parameters and external disturbance. Firstly, we suppose that the part or all of the system parameters are unknown but within some ranges, due to the effect of different conditions such as the loading of ship. Then, the course system is modeled as a polynomial one with time invariant polytopic uncertainty. With the aid of parameter dependent Lyapunov function method and positive polynomial theory, the sufficient conditions are given for stability and stabilization with [Formula: see text] performance. These conditions are formulated in terms of parameter-dependent nonlinear matrix inequalities which can be verified by semidefinite programming relaxations based on the sum of squares technique. Finally, simulation results show the effectiveness of the approach.

Topics & Concepts

Nonlinear systemSemidefinite programmingControl theory (sociology)Explained sum of squaresRobust controlLyapunov functionMathematicsPolynomialInvariant (physics)Applied mathematicsMathematical optimizationComputer scienceControl (management)Mathematical analysisArtificial intelligenceMathematical physicsPhysicsStatisticsQuantum mechanicsAdaptive Control of Nonlinear SystemsStability and Control of Uncertain SystemsAdvanced Control Systems Optimization
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