Mean square optimal control by interconnection for linear stochastic hamiltonian systems

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    Abstract

    This paper is concerned with linear stochastic Hamiltonian (LSH) systems subject to random external forces. Their dynamics are modelled by linear stochastic differential equations, parameterised by stiffness, mass, damping and coupling matrices. A class of physical couplings is discussed for such systems using inerters, springs and dampers. We consider a problem of minimising a steady-state quadratic cost functional over the coupling parameters for the interconnection of two LSH systems, one of which plays the role of an analog controller. For this mean square optimal control-by-interconnection setting, we outline first-order necessary conditions of optimality which employ variational methods developed previously for constrained linear quadratic Gaussian control problems.

    Original languageEnglish
    Title of host publication2020 Australian and New Zealand Control Conference, ANZCC 2020
    PublisherInstitute of Electrical and Electronics Engineers Inc.
    Pages24-29
    Number of pages6
    ISBN (Electronic)9781728199924
    DOIs
    Publication statusPublished - 26 Nov 2020
    Event2020 Australian and New Zealand Control Conference, ANZCC 2020 - Virtual, Gold Coast, Australia
    Duration: 26 Nov 202027 Nov 2020

    Publication series

    Name2020 Australian and New Zealand Control Conference, ANZCC 2020

    Conference

    Conference2020 Australian and New Zealand Control Conference, ANZCC 2020
    Country/TerritoryAustralia
    CityVirtual, Gold Coast
    Period26/11/2027/11/20

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