Induced \(\mathcal L_{2}\) norm improvement by interpolating controllers for discrete-time LPV systems
DOI10.3166/ejc.15.545-559zbMath1298.93222OpenAlexW2027566983WikidataQ57735648 ScholiaQ57735648MaRDI QIDQ468358
Balázs Kulcsár, Tamás Péni, Bokor, József
Publication date: 6 November 2014
Published in: European Journal of Control (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.3166/ejc.15.545-559
discrete-time systemsconstrained control\(\mathcal H_{\infty}\) controllinear parametervarying systems
Feedback control (93B52) Nonlinear systems in control theory (93C10) Discrete-time control/observation systems (93C55) (H^infty)-control (93B36)
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Cites Work
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- Moving horizon \({\mathcal H}_\infty\) control with performance adaptation for constrained linear systems
- Theory and computation of disturbance invariant sets for discrete-time linear systems
- Mixed \({\mathcal H}_ 2/{\mathcal H}_{\infty}\) control for discrete-time systems via convex optimization
- Constrained optimal control of linear and hybrid systems
- Self-scheduled \({\mathcal H}_ \infty\) control of linear parameter-varying systems: A design example
- Quadratic stabilisation with \(h_{\infty }\)-norm bound of non-linear discrete-time uncertain systems with bounded control
- Explicit solution of min--max MPC with additive uncertainties and quadratic criterion
- Characterization of the solution to a constrained \(H_{\infty}\) optimal control problem
- Linear systems with state and control constraints: the theory and application of maximal output admissible sets
- Feedback min‐max model predictive control using a single linear program: robust stability and the explicit solution
- Interpolation based computationally efficient predictive control
- Invariant approximations of the minimal robust positively Invariant set
- A receding-horizon approach to the nonlinear \(H_{\infty}\) control problem
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