14. Chaotic Systems
Author: Esteban Tlelo-Cuautle
Publisher: InTech, 2011
This book presents a collection of major developments in chaos systems covering aspects on chaotic behavioral modeling and simulation, control and synchronization of chaos systems, and applications like secure communications.
Author: M.R. James
Publisher: Australian National University, 2005
These notes are an overview of some aspects of optimal and robust control theory considered relevant to quantum control. The notes cover classical deterministic optimal control, classical stochastic and robust control, and quantum feedback control.
Author: Francesco Bullo, Jorge Cortes, Sonia Martinez
Publisher: Princeton University Press, 2009
This introductory book offers a distinctive blend of computer science and control theory. The book presents a broad set of tools for understanding coordination algorithms, determining their correctness, and assessing their complexity.
Author: S. Boyd, L. El Ghaoui, E. Feron, V. Balakrishnan, 1997
The authors reduce a wide variety of problems arising in system and control theory to a handful of optimization problems that involve linear matrix inequalities. These problems can be solved using recently developed numerical algorithms.
Author: Wilson J. Rugh
Publisher: The Johns Hopkins University Press, 1981
Contents: Input/Output Representations in the Time and Transform Domain; Obtaining Input/Output Representations from Differential-Equation Descriptions; Realization Theory; Response Characteristics of Stationary Systems; Discrete-Time Systems; etc.
Author: Stephen Boyd, Craig Barratt
Publisher: Prentice-Hall, 1991
The book is motivated by the development of high quality integrated sensors and actuators, powerful control processors, and hardware and software that can be used to design control systems. Written for students and industrial control engineers.
Author: T.T. Tay, I.M.Y. Mareels, J.B. Moore
Publisher: Birkhauser, 1997
Using the tools of optimal control, robust control and adaptive control, the authors develop the theory of high performance control. Topics include performance enhancement, stabilizing controllers, offline controller design, and dynamical systems.
Author: Petr Husek
Publisher: InTech, 2008
The the book covers broad field of theory and applications of many different control approaches applied on dynamic systems. Output and state feedback control include among others robust control, optimal control or intelligent control methods.
Author: Derek Atherton
Publisher: BookBoon, 2009
The book covers the basic aspects of linear single loop feedback control theory. Explanations of the mathematical concepts used in classical control such as root loci, frequency response and stability methods are explained by making use of MATLAB.
Author: Jan C. Willems
Publisher: The MIT Press, 1971
This monograph develops further and refines methods based on input -output descriptions for analyzing feedback systems. Contrary to previous work in this area, the treatment heavily emphasizes and exploits the causality of the operators involved.
Author: Bruce A. Francis
Publisher: Springer, 1987
An elementary treatment of linear control theory with an H-infinity optimality criterion. The systems are all linear, timeinvariant, and finite-dimensional and they operate in continuous time. The book has been used in a one-semester graduate course.
Author: John Doyle, Bruce Francis, Allen Tannenbaum, 1990
The book presents a theory of feedback control systems. It captures the essential issues, can be applied to a wide range of practical problems, and is as simple as possible. Addressed to students who have had a course in signals and systems.
Author: R. Sepulchre, M. Jankovic, P. Kokotovic
Publisher: Springer, 1996
Several streams of nonlinear control theory are directed towards a constructive solution of the feedback stabilization problem. Analytic, geometric and asymptotic concepts are assembled as design tools for a wide variety of nonlinear phenomena.