Infinite horizon disturbance attenuation for discrete-time systems. A Popov-Yakubovich approach
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Publication:1330848
DOI10.1007/BF01206411zbMath0802.93046MaRDI QIDQ1330848
Aristide Halanay, Vlad Ionescu, Vasile Dragan
Publication date: 14 August 1994
Published in: Integral Equations and Operator Theory (Search for Journal in Brave)
Related Items (6)
Remarks on the time-varying \(H_{\infty}\) Riccati equations. ⋮ H∞-control with output feedback for time-varying discrete systems ⋮ On the evaluation of the least achievable tolerance in the disturbance feedforward problem ⋮ Parametrized riccati equations associated to input-output operators for discrete-time systems with state-dependent noise ⋮ ℋ∞output feedback control for linear discrete time-varying systems via the bounded real lemma ⋮ On computing the stabilizing solution of a class of discrete‐time periodic Riccati equations
Cites Work
- Worst-case design in the time domain: The maximum principle and the standard \(H_{\infty}\) problem
- On the discrete-time bounded real lemma with application in the characterization of static state feedback \(H_ \infty\) controllers
- Generalized discrete-time Popov-Yakubovich theory
- State-space solutions to standard H/sub 2/ and H/sub infinity / control problems
- State-space formulae for discrete-time H∞ optimization
- State-space approach to discrete-time,ℋ∞control
- Two-Riccati formulae for the discrete-time H∞-control problem
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