Dissipative Systems Analysis and Control: Theory and Applications: Communications and Control Engineering
Autor Bernard Brogliato, Rogelio Lozano, Bernhard Maschke, Olav Egelanden Limba Engleză Hardback – 19 iul 2019
The third edition is substantially updated to accommodate new material within the existing chapter structure. The additions include:
· the introduction of negative imaginary transfer functions;
· the design of stable state observers that use passivity as a tool for their stability analysis; · a new section on robust set-valued control of uncertain Lagrangian systems;
· extended section on discrete-time systems, especially the preservation of dissipativity after discretization;
. a thorough treatment of nonsmooth set-valued Lur'e systems well-posednees and stability;
. an extended chapter on the Kalman–Yakubovich–Popov Lemma; and
. over 1000 references.
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| Paperback (1) | 919.01 lei 38-45 zile | |
| Springer International Publishing – 15 aug 2020 | 919.01 lei 38-45 zile | |
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Specificații
ISBN-13: 9783030194192
ISBN-10: 3030194191
Pagini: 687
Ilustrații: XVIII, 711 p. 96 illus.
Dimensiuni: 155 x 235 mm
Greutate: 1.32 kg
Ediția:3rd ed. 2020
Editura: Springer International Publishing
Colecția Springer
Seria Communications and Control Engineering
Locul publicării:Cham, Switzerland
ISBN-10: 3030194191
Pagini: 687
Ilustrații: XVIII, 711 p. 96 illus.
Dimensiuni: 155 x 235 mm
Greutate: 1.32 kg
Ediția:3rd ed. 2020
Editura: Springer International Publishing
Colecția Springer
Seria Communications and Control Engineering
Locul publicării:Cham, Switzerland
Cuprins
Chapter 1. Introduction.- Chapter 2. Positive Real Systems.- Chapter 3. Kalman-Yakubovich-Popov Lemma.- Chapter 4. Dissipative Systems.- Chapter 5. Stability of Dissipative Systems.- Chapter 6. Dissipative Physical Systems.- Chapter 7. Passivity-based Control.- Chapter 8. Adaptive Control.- Chapter 9. Experimental Results.- Index.
Recenzii
“This monograph presents comprehensive presentation general theory and applications of dissipative systems. The modern development of engineering and technology has a significant impact on this area of research. This monograph opens up new possibilities for many researchers in this field to approach the front line of research.” (Anatoly Martynyuk, zbMATH 1432.93001, 2020)
Notă biografică
Bernard Brogliato was born in 1963, graduated from Ecole Normale Supérieure de Cachan (France), Mechanical Engineering Dept., Ph.D. and Habilitation degree in Automatic Control from Grenoble Institute of Technology in 1991 and 1995 respectively. He is Senior Researcher at INRIA Grenoble Rhône-Alpes. Research interests: non-smooth dynamical systems (analysis, control and observation, numerics), impact and contact mechanics, digital sliding-mode control. Wrote about 90 articles in international journals in the fields of Systems and Control, Mechanical Engineering, and Applied Mathematics. Also authored and co-authored five monographs. He was Associate Editor for Automatica (1999-2008), is Associate Editor for Nonlinear Analysis Hybrid Systems, and ASME Journal of Computational and Nonlinear Dynamics.
Rogelio Lozano was born in Monterrey Mexico, on July 12, 1954. He received the B.S. degree in electronic engineering fromthe National Polytechnic Institute of Mexico in 1975, the M.S. degree in electrical engineering from Centro de Investigación y de Estudios Avanzados (CINVESTAV), Mexico in 1977, and the Ph.D. degree in automatic control from Laboratoire d'Automatique de Grenoble, France, in 1981. He joined the Department of Electrical Engineering at CINVESTAV, Mexico, in 1981 where he worked until 1989. He was Head of the Section of Automatic Control from June 1985 to August 1987. He has held visiting positions at the University of Newcastle, Australia, from November 1983 to November 1984, NASA Langley Research Center VA, from August 1987 to August 1988, and Laboratoire d'Automatique de Grenoble, France, from February 1989 to July 1990. Since 1990 he is a CNRS (Centre National de la Recherche Scientifique) Research Director at University of Technology of Compiègne, France. He was Associate Editor of Automatica in the period 1987-2000. He is associate Editor of the Journal of Intelligentand Robotics Systems since 2012 and Associate Editor in the Int. J. of Adaptive Control and Signal Processing since 1988.
Bernhard Maschke is Professor of Automatic Control of the University Claude Bernard of Lyon, Villeurbanne, France since 2000. The main streamline of his research is the nonlinear and passivity-based control of complex physical systems. He is one of the main initiators of the Port Hamiltonian formalism which bases the modelling, simulation and control of complex physical systems on network theory and thermodynamic theory. He has used this formalism for complex spatial mechanisms and in the mechatronic context of automotive applications and more recently to chemical enginneering processes and various multi-physics and multi-scale systems such as an adsorption process, a fuel cell or an Ion Polymer Metal Composite.
Olav Egeland is a graduate of the Norwegian University of Science and Technology (NTNU), where he is professor of production automation. He was at Marine Cybernetics AS 2004-2011 as co-founder. He has received the Automatica Prize Paper Award and the Outstanding Paper Award of IEEE Trans. Control Systems Technology, and has been Associate Editor of IEEE Trans. Automatic Control and European Journal of Control. His research is on modelling, simulation and control of mechanical systems with applications to robotics and offshore systems.
Rogelio Lozano was born in Monterrey Mexico, on July 12, 1954. He received the B.S. degree in electronic engineering fromthe National Polytechnic Institute of Mexico in 1975, the M.S. degree in electrical engineering from Centro de Investigación y de Estudios Avanzados (CINVESTAV), Mexico in 1977, and the Ph.D. degree in automatic control from Laboratoire d'Automatique de Grenoble, France, in 1981. He joined the Department of Electrical Engineering at CINVESTAV, Mexico, in 1981 where he worked until 1989. He was Head of the Section of Automatic Control from June 1985 to August 1987. He has held visiting positions at the University of Newcastle, Australia, from November 1983 to November 1984, NASA Langley Research Center VA, from August 1987 to August 1988, and Laboratoire d'Automatique de Grenoble, France, from February 1989 to July 1990. Since 1990 he is a CNRS (Centre National de la Recherche Scientifique) Research Director at University of Technology of Compiègne, France. He was Associate Editor of Automatica in the period 1987-2000. He is associate Editor of the Journal of Intelligentand Robotics Systems since 2012 and Associate Editor in the Int. J. of Adaptive Control and Signal Processing since 1988.
Bernhard Maschke is Professor of Automatic Control of the University Claude Bernard of Lyon, Villeurbanne, France since 2000. The main streamline of his research is the nonlinear and passivity-based control of complex physical systems. He is one of the main initiators of the Port Hamiltonian formalism which bases the modelling, simulation and control of complex physical systems on network theory and thermodynamic theory. He has used this formalism for complex spatial mechanisms and in the mechatronic context of automotive applications and more recently to chemical enginneering processes and various multi-physics and multi-scale systems such as an adsorption process, a fuel cell or an Ion Polymer Metal Composite.
Olav Egeland is a graduate of the Norwegian University of Science and Technology (NTNU), where he is professor of production automation. He was at Marine Cybernetics AS 2004-2011 as co-founder. He has received the Automatica Prize Paper Award and the Outstanding Paper Award of IEEE Trans. Control Systems Technology, and has been Associate Editor of IEEE Trans. Automatic Control and European Journal of Control. His research is on modelling, simulation and control of mechanical systems with applications to robotics and offshore systems.
Textul de pe ultima copertă
The third edition of the now standard Dissipative Systems Analysis and Control presents a revised and expanded treatment of dissipative systems theory, constituting a self-contained, advanced introduction for graduate students, researchers and practising engineers. It examines linear, nonlinear and nonsmooth systems, with many examples in each chapter; occasional infinite-dimensional examples are also included. Throughout, emphasis is placed on the use of the dissipative properties of a system for the design of stable and robust feedback control laws or state observers. The theory is substantiated by experimental results and by reference to its application in illustrative physical cases (Lagrangian systems, passivity-based and adaptive controllers are covered thoroughly).
The third edition is substantially updated to accommodate new material within the existing chapter structure. The additions include:
· the introduction of negative imaginary transfer functions;
· the design of stable state observers that use passivity as a tool for their stability analysis; · a new section on robust set-valued control of uncertain Lagrangian systems;
· extended section on discrete-time systems, especially the preservation of dissipativity after discretization;
. a thorough treatment of nonsmooth set-valued Lur'e systems well-posednees and stability;
. an extended chapter on the Kalman–Yakubovich–Popov Lemma; and
. over 1000 references.
The third edition is substantially updated to accommodate new material within the existing chapter structure. The additions include:
· the introduction of negative imaginary transfer functions;
· the design of stable state observers that use passivity as a tool for their stability analysis; · a new section on robust set-valued control of uncertain Lagrangian systems;
· extended section on discrete-time systems, especially the preservation of dissipativity after discretization;
. a thorough treatment of nonsmooth set-valued Lur'e systems well-posednees and stability;
. an extended chapter on the Kalman–Yakubovich–Popov Lemma; and
. over 1000 references.
Caracteristici
Comprehensively reviews dissipativity in the linear, non-linear and non-smooth cases Illustrates the theoretical developments through examples Allows readers to find relevant articles easily with a complete bibliography