Optimization and Control of Bilinear Systems: Theory, Algorithms, and Applications / Edition 1by Panos M. Pardalos, Vitaliy A. Yatsenko
Pub. Date: 12/08/2010
Publisher: Springer US
The present book is based on results of scientific investigations and on the materials of special courses, offered for graduate and undergraduate students. The purpose of this book is to acquaint the reader with the developments in bilinear systems theory and its applications. Particular attention is paid to control of open physical processes functioning in a… See more details below
The present book is based on results of scientific investigations and on the materials of special courses, offered for graduate and undergraduate students. The purpose of this book is to acquaint the reader with the developments in bilinear systems theory and its applications. Particular attention is paid to control of open physical processes functioning in a nonequilibrium mode. The text consists of eight chapters. Chapter 1 is concerned with the problems of systems analysis of bilinear processes. Chapter 2 solves the problem of optimal control of bilinear systems on the basis of difier- tial geometry methods. Chapter 3 deals with the progress made in an adaptive estimation technique. Chapter 4 is devoted to the application of the Yang–Millselds to investigation of nonlinear control problems. Chapter 5 considers intelligent sensors, used to examine weak signals. This chapter also describes and analyzes bilinear models of intelligent sensing elements. Chapter 6 illustrates control problems of a quantum system. Chapter 7 discusses the problems of control and identification in systems with chaotic dynamics. Finally, Chapter 8 examines the c- trolled processes running in biomolecular systems. This book is directed to students, postgraduate students, and speci- ists engaged in theelds of control of physical processes, quantum and molecular computing, biophysics, and physical information science.
Table of Contents
System-Theoretical Description of Open Physical Processes.- Control of Bilinear Systems.- Bilinear Systems and Nonlinear Estimation Theory.- Control Of Dynamical Processes And Geometrical Structures.- Superconducting Levitation and Bilinear Systems.- Optimization And Control Of Quantum-Mechanical Processes.- Modeling And Global Optimization In Biomolecular Systems.- Modeling And Analysis Of Bilinear Systems.
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