2016
DOI: 10.1002/oca.2257
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Linear quadratic regulation for discrete‐time systems with multiplicative noise and multiple input delays

Abstract: SUMMARYThis paper is concerned with the optimal linear quadratic regulation problem for discrete-time systems with state and control dependent noises and multiple delays in the input. We show that the problem admits a unique solution if and only if a sequence of matrices, which are determined by coupled difference equations developed in this paper, are positive definite. Under this condition, the optimal feedback controller and the optimal cost are presented via some coupled difference equations. Our approach … Show more

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Cited by 12 publications
(11 citation statements)
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“…Let the bimatrix Riccati equation (9) have a positive definite solution {P 1 , P 2 }. The bimatrix {R 1 , R 2 } defined in (14) associated with the antilinear system (3) is given by…”
Section: The Anti-riccati Equation-based Approachmentioning
confidence: 99%
See 1 more Smart Citation
“…Let the bimatrix Riccati equation (9) have a positive definite solution {P 1 , P 2 }. The bimatrix {R 1 , R 2 } defined in (14) associated with the antilinear system (3) is given by…”
Section: The Anti-riccati Equation-based Approachmentioning
confidence: 99%
“…The LQR problem has been extended to several different situations. For example, LQR control with time delay was investigated in the works of Liang and Zhang and Wu and Shu; the LQR problem for stochastic systems was studied in the works of Liu et al and Wu and Zhuang; and LQR for stochastic time‐delay systems was solved in the work of Li et al In the work of Wu et al, the LQR problem was solved for the so‐called antilinear system (which is a special case of the complex‐valued linear systems), and a so‐called anti‐Riccati equation–based solution was established.…”
Section: Introductionmentioning
confidence: 99%
“…Remark Note that the cost function can be rewritten as rightJ(xk,k)left=i=0Nxk+iQxk+i+i=0Nduk+iRuk+irightrightleft+i=Nd+1Nuk+i(R+F2)uk+irightleft+xk+N+1F1xk+N+1. It is obvious that Equation has different control weighting matrices of R and R + F 2 at different time of ( k , k +1,⋯, k + N − d ) and ( k + N − d +1,⋯, k + N ), respectively. Thus, R s is written as the piecewise function (Equation ) according to Li et al…”
Section: Receding Horizon Control For Discrete‐time Systems With Multmentioning
confidence: 99%
“…The explicit solution was obtained based on duality principle. Only recently, in Li et al, a complete solution to the linear quadratic regulation problem for discrete‐time case with multiple input delay was obtained, where an explicit solution was derived based on Pontragin's maximum principle. It should be noted that the stabilization problem has not been solved in Li et al …”
Section: Introductionmentioning
confidence: 99%
“…Control and state estimation over networks have attracted great attention because of the increasing development in communication networks . Because the random time delay and packet dropout are unavoidable in communication transmission through unreliable networks, the data obtained by the receiver may not be up‐to‐date.…”
Section: Introductionmentioning
confidence: 99%