Linear Time Delay Systems 1998
Published on 20. January 1999
Book
Paperback/Softback
222 pages
978-0-08-043047-8 (ISBN)
Description
There exists today an increasing interest in the study of time delay systems because delayed systems are encountered frequently in practice and time delays are often a source of instability.
The first workshop in this rapidly growing field of time delay systems was organized by the Laboratoire d'Automatique de Grenoble, France and sponsored by the IFAC Technical Committee on Linear Systems.
The 50 participants had the possibility to attend 4 plenary sessions and 2 invited sessions as well as 30 contributed papers selected from 40 submitted papers coming from 17 countries.
The technical papers, arranged in 11 sessions, covered the field of linear time delay systems, including algebraic and structural properties, stability analysis, stabilization, Hinf control, robust stabilization and some applications.
The first workshop in this rapidly growing field of time delay systems was organized by the Laboratoire d'Automatique de Grenoble, France and sponsored by the IFAC Technical Committee on Linear Systems.
The 50 participants had the possibility to attend 4 plenary sessions and 2 invited sessions as well as 30 contributed papers selected from 40 submitted papers coming from 17 countries.
The technical papers, arranged in 11 sessions, covered the field of linear time delay systems, including algebraic and structural properties, stability analysis, stabilization, Hinf control, robust stabilization and some applications.
More details
Series
Language
English
Place of publication
London
United Kingdom
Publishing group
Elsevier Science & Technology
Target group
Professional and scholarly
Illustrations
Illustrations
Weight
580 gr
ISBN-13
978-0-08-043047-8 (9780080430478)
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Schweitzer Classification
Persons
Michel Fliess is a research director at Ecole Polytechnique. He obtained a PhD 1972 on Theoretical computer sciences. His research focuses on original algebraic methods in automation, estimation and identification, which have considerably advanced these disciplines
Content
Chapter headings and selected papers: Robust Stabilization. Robust stabilizing control for uncertain time-delay systems containing saturating actuators (H. Su, J. Chu). Structural Properties. On equivalence at infinity and row-by-row decoupling for linear systems with delays (R. Rabah). Multiple Delay Systems. Numerical computation of cross-covariance functionals for linear systems with multiple time delays (J.-H. Hwang et al.). H2H?. Quadratic cost control of dynamical systems with a discrete delayed control (L. Chraibi et al.). Stability and Stabilization of Linear Time Delay Systems. Mixed delay-independent / delay-dependent stability of linear systems with delayed state: an L.M.I. approach (S.-I. Niculescu et al.). Application: Case Study. A case study on balanced reduction of time delay systems (T. Izumi et al.). Algebraic, Structural and Geometric Approaches for Ring Models of Time-Delay Systems. Feedback stabilization over communicative rings using homogeneous images (K. Mori, K. Abe). Dead Beat. Dead-time compensators: a unified approach (J.E. Normey-Rico, E.F. Camacho). Stability Analysis. An extension of lucas theorem to entire functions (J. Moreno). Stabilization. Stabilizing rational controllers for a class of a time-delay systems (L. Naimark et al.). Robust Stability. Method of difference transformations for differential systems with linear time-delay (A.A. Laktionov, A.P. Zhabko). Smith Predictor. Quasi-finite linear delay systems: theory and applications (M. Fliess, H. Mounier). Plenary Papers. Algebraic tools for the control and stabilization of time-delay systems (J.J. Loiseau). Author index.