Language:   Search:   Contact
World of
Mathematics Database
»ZBMATH« MSC 2000
MSC 2010 Reviewer
Service Subscription
»ZBMATH«
ZBMATH Database | Advanced Search Print
Read more | Try MathML | Hide
Zentralblatt MATH has released its new interface!
For an improved author identification, see the new author database of ZBMATH.

ZBMATH Database Simple Search Advanced Search Command Search

Advanced Search

Query:
Fill in the form and click »Search«...
Format:
Display: entries per page entries
Zbl 0962.93013
Jeong, J.M.; Kwun, Y.C.; Park, J.Y.
Approximate controllability for semilinear retarded functional-differential equations. (English)
[J] J. Dyn. Control Syst. 5, No.3, 329-346 (1999). ISSN 1079-2724; ISSN 1573-8698/e

Semilinear, infinite-dimensional control systems with lumped and distributed delays are considered. It is generally assumed that the control system has both a linear part which contains the lumped and distributed delays and a nonlinear part without delays. Using the Leray-Schauder degree theory, a sufficient condition for approximate controllability in a given finite-time interval is formulated and proved. Moreover, the regularity of the solution of the abstract retarded differential equation is discussed. The relationships between the attainable sets for the semilinear control system and the corresponding linear control system are investigated. As an illustrative example, approximate controllability of the semilinear heat equation is considered. It should be pointed out that the results given in the paper extend the controllability considerations given in the paper [{\it K. Naito}, J. Optimization Theory Appl. 60, 57-65 (1989; Zbl 0632.93007)].
[J.Klamka (Katowice)]
MSC 2000:
*93B05 Controllability
93C10 Nonlinear control systems
34K30 Functional-differential equations in abstract spaces
34K35 Functional-differential equations connected with control problems
93C25 Control systems in abstract spaces
93C23 Systems governed by functional-differential equations

Keywords: retarded functional equations; infinite-dimensional control systems; delays; Leray-Schauder degree theory; approximate controllability; semilinear control system

Citations: Zbl 0632.93007

Comment on this Item PDF MathML XML ASCII DVI PS BibTeX Online Ordering Article Journal

Login Username: Password:

Highlights
Scientific prize winners of the ICM 2010
Overhang
Lie groups, physics and geometry. An introduction for physicists, engineers and chemists.

Master Server

Zentralblatt MATH Berlin [Germany]

© FIZ Karlsruhe GmbH

Zentralblatt MATH master server is maintained by the Editorial Office in Berlin, Section Mathematics and Computer Science of FIZ Karlsruhe and is updated daily.

Other Mirror Sites

Copyright © 2013 Zentralblatt MATH | European Mathematical Society | FIZ Karlsruhe | Heidelberg Academy of Sciences
Published by Springer-Verlag | Webmaster