International Journal of applied mathematics and computer science

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Paper details

Number 2 - June 2008
Volume 18 - 2008

Approximate controllability of infinite dimensional systems of the n-th order

Jerzy Stefan Respondek

Abstract
The objective of the article is to obtain general conditions for several types of controllability at once for an abstract differential equation of arbitrary order, instead of conditions for a fixed order equation. This innovative approach was possible owing to analyzing the n-th order linear system in the Frobenius form which generates a Jordan transition matrix of the Vandermonde form. We extensively used the fact that the knowledge of the inverse of a Jordan transition matrix enables us to directly verify the controllability by Chen's theorem. We used the explicit analytical form of the inverse Vandermonde matrix. This enabled us to obtain more general conditions for different types of controllability for infinite dimensional systems than the conditions existing in the literature so far. The methods introduced can be easily adapted to the analysis of other dynamic properties of the systems considered.

Keywords
inverse Vandermonde matrix, basic symmetrical polynomials, distributed parameter system, linear operators, controllability

DOI
10.2478/v10006-008-0018-7