V. I. Korobov scite author profile

We introduce a new class of the triangular (multi-input and multi-output) control systems, of O.D.E., which are not feedback linearizable, and investigate its global behavior. The triangular form introduced is a generalization of the classes of triangular systems, considered before. For our class, we solve the problem of global robust controllability. Combining our main result with that of [F.H. Clarke, Yu.S. Ledyaev, E.D. Sontag, A.I. Subbotin, Asymptotic controllability implies feedback stabilization, IEEE Trans. Automat. Control 42 (1997) 1394-1407], we obtain a corollary on the global discontinuous sampled stabilization (an example showing that global smooth stabilization can be irrelevant to the singular case is considered). To prove our main result, we apply a certain "back-stepping" algorithm and combine the technique proposed in [V.I. Korobov, S.S. Pavlichkov, W.H. Schmidt, Global robust controllability of the triangular integro-differential Volterra systems, J. Math. Anal. Appl. 309 (2005) 743-760] with solving a specific problem of global "practical stabilization" by means of a discontinuous, time-varying feedback law.

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A General Approach to the Solution of the Bounded Control Synthesis Problem in a Controllability Problem

Korobov¹

1980

Math. USSR Sb.

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Time Optimality and the Power Moment Problem

Korobov¹,

Sklyar²

1989

Math. USSR Sb.

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A new critical-amplihzde relation which holds for one-dimensional guanNm groundsmte transitions is presented. The relation yields an estimate ofthe sound velocity which appears in the conformal field theov as an a priori unknown parameter. With the use of this relation, the exponent q can be explicitly determined from only the scaling fit of lhe off-critical energy gdp. The relation is confirmed in the transverse Ising model, the S = f anisotropic X Y model. and the three-state Pom model.

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Self-heating of plastics during cyclic defformation

Ratner¹,

Korobov²

1966

Polymer Mechanics

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Global robust controllability of the triangular integro-differential Volterra systems

Korobov

Pavlichkov

Schmidt

2005

Journal of Mathematical Analysis and Applications

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A solution of the global controllability problem for a class of nonlinear control systems of the Volterra integro-differential equations is presented. It is proven that there exists a family of continuous controls that solve the global controllability problem for this class. The constructed controls depend continuously on the initial and the terminal states. It makes possible to prove the global controllability of the uniformly bounded perturbations of these systems under the global Lipschitz condition for the unperturbed system with respect to the states and the controls.  2004 Elsevier Inc. All rights reserved.

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V. I. Korobov

Global properties of the triangular systems in the singular case

A General Approach to the Solution of the Bounded Control Synthesis Problem in a Controllability Problem

Time Optimality and the Power Moment Problem

Self-heating of plastics during cyclic defformation

Global robust controllability of the triangular integro-differential Volterra systems

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