Publication detail
Representation of solutions of impulsive linear discrete systems with constant coefficients and a single delay
DIBLÍK, J. MORÁVKOVÁ, B.
Original Title
Representation of solutions of impulsive linear discrete systems with constant coefficients and a single delay
English Title
Representation of solutions of impulsive linear discrete systems with constant coefficients and a single delay
Type
conference paper
Language
en
Original Abstract
The purpose of this paper is to develop a method for the construction of solutions of linear discrete systems with constant coefficients, with pure delay and with impulses. Cases of only one impulse focused in a given interval and impulses acting at all points of a given interval are considered. Solutions are expressed by means of a special function called a discrete matrix delayed exponential.
English abstract
The purpose of this paper is to develop a method for the construction of solutions of linear discrete systems with constant coefficients, with pure delay and with impulses. Cases of only one impulse focused in a given interval and impulses acting at all points of a given interval are considered. Solutions are expressed by means of a special function called a discrete matrix delayed exponential.
Keywords
Representation; impulsive linear discrete system; constant coefficients; single delay.
RIV year
2011
Released
19.05.2011
Location
Brno
ISBN
978-80-7231-779-0
Book
XXIX International Colloquium on the Management of Educational Process
Pages from
1
Pages to
6
Pages count
6
Documents
BibTex
@inproceedings{BUT72869,
author="Josef {Diblík} and Blanka {Morávková}",
title="Representation of solutions of impulsive linear discrete systems with constant coefficients and a single delay",
annote="The purpose of this paper is to develop a method for the construction
of solutions of linear discrete systems with constant coefficients, with pure delay and with impulses.
Cases of only one impulse focused in a given interval and impulses acting at all points of a given interval are considered.
Solutions are expressed by means of a special function called a discrete matrix delayed exponential.",
booktitle="XXIX International Colloquium on the Management of Educational Process",
chapter="72869",
howpublished="electronic, physical medium",
year="2011",
month="may",
pages="1--6",
type="conference paper"
}