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The regulator equation is the fundamental equation whose solution must be found in order to solve the output regulation problem. It is a system of first-order partial differential equations (PDE) combined with an algebraic equation. The classical approach to its solution is to use the Taylor series with undetermined coefficients. In this contribution, another path is followed: the equation is solved using the finite-element method which is, nevertheless, suitable to solve PDE part only. This paper...
This paper deals with the three-point boundary value problem for the nonlinear singularly perturbed second-order systems. Especially, we focus on an analysis of the solutions in the right endpoint of considered interval from an appearance of the boundary layer point of view. We use the method of lower and upper solutions combined with analysis of the integral equation associated with the class of nonlinear systems considered here.
For systems with slowly varying parameters the controllability behavior is studied and the relation to the control sets for the systems with frozen parameters is clarified.
For systems with slowly varying parameters the controllability behavior is
studied and the relation to the control sets for the systems with frozen
parameters is clarified.
We consider quasilinear optimal control problems involving a thick two-level junction Ωε which consists of the junction body Ω0 and a large number of thin cylinders with the cross-section of order 𝒪(ε2). The thin cylinders are divided into two levels depending on the geometrical characteristics, the quasilinear boundary conditions and controls given on their lateral surfaces and bases respectively. In addition, the quasilinear boundary conditions depend on parameters ε, α, β and the...
We consider quasilinear optimal control problems involving a thick two-level junction
Ωε which consists of the junction body
Ω0 and a large number of thin cylinders with the
cross-section of order 𝒪(ε2). The thin cylinders
are divided into two levels depending on the geometrical characteristics, the quasilinear
boundary conditions and controls given on their lateral surfaces and bases respectively.
In addition, the quasilinear boundary...
We consider quasilinear optimal control problems involving a thick two-level junction
Ωε which consists of the junction body
Ω0 and a large number of thin cylinders with the
cross-section of order 𝒪(ε2). The thin cylinders
are divided into two levels depending on the geometrical characteristics, the quasilinear
boundary conditions and controls given on their lateral surfaces and bases respectively.
In addition, the quasilinear boundary...
Wireless Backbone Networks (WBNs) equipped with Multi-Radio Multi-Channel (MRMC) configurations do experience power control problems such as the inter-channel and co-channel interference, high energy consumption at multiple queues and unscalable network connectivity. Such network problems can be conveniently modelled using the theory of queue perturbation in the multiple queue systems and also as a weak coupling in a multiple channel wireless network. Consequently, this paper proposes a queue perturbation...
We address three null controllability problems related to the heat equation. First we show that the heat equation with a rapidly oscillating density is uniformly null controllable as the period of the density tends to zero. We also prove that the same result holds for the finite-difference semi-discretization in space of the constant coefficient heat equation as the step size tends to zero. Finally, we prove that the null controllability of the constant coefficient heat equation can be obtained...
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