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arxiv: 2411.10580 · v1 · pith:H5NSVRJVnew · submitted 2024-11-15 · 🧮 math.OC · cs.SY· eess.SY

Gradient-Based Stochastic Extremum-Seeking Control for Multivariable Systems with Distinct Input Delays

classification 🧮 math.OC cs.SYeess.SY
keywords delaysinputdistinctextremum-seekingmethodstochasticsystemsanalysis
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This paper addresses the design and analysis of a multivariable gradient-based stochastic extremum-seeking control method for multi-input systems with arbitrary input delays. The approach accommodates systems with distinct time delays across input channels and achieves local exponential stability of the closed-loop system, guaranteeing convergence to a small neighborhood around the extremum point. By incorporating phase compensation for dither signals and a novel predictor-feedback mechanism with averaging-based estimates of the unknown gradient and Hessian, the proposed method overcomes traditional challenges associated with arbitrary, distinct input delays. Unlike previous work on deterministic multiparameter extremum-seeking with distinct input delays, this stability analysis is achieved without using backstepping transformations, simplifying the predictor design and enabling a more straightforward implementation. Specifically, the direct application of Artstein's reduction approach results in delay- and system-dimension-independent convergence rates, enhancing practical applicability. A numerical example illustrates the robust performance and advantages of the proposed delay-compensated stochastic extremum-seeking method.

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