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Control of constrained nonlinear uncertain discrete-time systems via robust controllable sets: a modal interval analysis approach

Jian Wan, Josep Vehí, Ningsu Luo, Pau Herrero (2009)

ESAIM: Control, Optimisation and Calculus of Variations

A general framework for computing robust controllable sets of constrained nonlinear uncertain discrete-time systems as well as controlling such complex systems based on the computed robust controllable sets is introduced in this paper. The addressed one-step control approach turns out to be a robust model predictive control scheme with feasible unit control horizon and contractive constraint. The solver of 1-dimensional quantified set inversion in modal interval analysis is extended to 2-dimensional...

Control of distributed delay systems with uncertainties: a generalized Popov theory approach

Dan Ivanescu, Silviu-Iulian Niculescu, Jean-Michel Dion, Luc Dugard (2001)

Kybernetika

The paper deals with the generalized Popov theory applied to uncertain systems with distributed time delay. Sufficient conditions for stabilizing this class of delayed systems as well as for $γ$ -attenuation achievement are given in terms of algebraic properties of a Popov system via a Liapunov–Krasovskii functional. The considered approach is new in the context of distributed linear time-delay systems and gives some interesting interpretations of $H^{\infty}$ memoryless control problems in terms of Popov triplets...

Controlling chaos in nuclear spin generator system using backstepping design.

Umut, Ömür (2009)

APPS. Applied Sciences

Displaying 1 – 3 of 3

Control of constrained nonlinear uncertain discrete-time systems via robust controllable sets: a modal interval analysis approach

Control of distributed delay systems with uncertainties: a generalized Popov theory approach

Controlling chaos in nuclear spin generator system using backstepping design.

Currently displaying 1 – 3 of 3