Overview
- Gives the student an idea of what is really going to work by stressing the importance of process knowledge and models developed from first principles
- Provides the process control student with the necessary mathematical basics to tackle nonlinear control while also tackling advanced subjects such as feedback linearisation
- Includes supplementary material: sn.pub/extras
Part of the book series: Advanced Textbooks in Control and Signal Processing (C&SP)
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Table of contents (12 chapters)
Keywords
About this book
Although nonlinear control is traditionally an area of interest in process systems engineering which is of great practical importance, many process engineers have difficulty with the paradigms and results of modern nonlinear control theory because they lack the mathematical background usually associated with such methods or because of their computational difficulty and small-scale applicability in the general case. This textbook overcomes these barriers.
Features:
• Mathematical preliminaries for readers from a process engineering background.
• Constant reference to the finite-dimensional linear time-invariant continuous case as a basis for extension to the nonlinear situation.
• Theories and analytical methods laid out clearly and straightforwardly with exercises to reaffirm the techniques as they are taught.
• Emphasis on process knowledge and first-principles-based models in obtaining feasible and effective solutions in particular circumstances from general cases.
• Simple examples and case studies.
Reviews
From the reviews:
...I believe this book represents a welcome addition to textbooks on nonlinear systems and control theory and well deserves to be a recommended textbook on the reading list of any nonlinear systems and control course aimed at graduate and postgraduate students in Process Engineering.
Automatica 42 (2006) 1829 – 1831 (Reviewer: Mario di Bernado)
Authors and Affiliations
About the authors
Katalin Hangos obtained M.Sc.s in chemistry and computer science form Loránd Eötvös University in Budapest, and a Ph.D. and D.Sc from the Hungarian Academy of Science. She is currently a professor at the Hungarian Academy as well as a visiting professor at the University of Queensland and at the Technical University of Denmark. Her current research interests include: intelligent control systems and the theoretical foundations of model-based operator support systems. She teaches at both undergraduate and postgraduate level in intelligent control and the analysis and control of non-linear systems.
JĂłzsef Bokor is the Research Director of the Systems and Control Laboratory at the Hungarian Academy of Sciences. He obtained his M.Sc. from the Technical University of Budapest and his Ph.D. and D.Sc. from the Hungarian Academy. His research interests include Identification problems in closed-loop systems, fault detection and modelling of dynamic systems with associated realisation theories. He teaches postgraduate courses in multi-variable feedback systems, system identification and control of non-linear systems.
Gábor Szederkényi has just obtained his Ph.D. from the University of Veszprém but has already published papers in a number of peer-reviewed journals and is now a research fellow at the Hungarian Academy. His research interests include: analysis and control of non-linear systems and model-based fault detection and diagnosis in non-linear systems. He currently teaches undergraduates in linear control theory and discrete mathematics.
Bibliographic Information
Book Title: Analysis and Control of Nonlinear Process Systems
Authors: K. M. Hangos, J. Bokor, G. Szederkényi
Series Title: Advanced Textbooks in Control and Signal Processing
DOI: https://doi.org/10.1007/b97665
Publisher: Springer London
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eBook Packages: Springer Book Archive
Copyright Information: Springer-Verlag London 2004
Softcover ISBN: 978-1-85233-600-4Published: 06 April 2004
eBook ISBN: 978-1-85233-861-9Published: 18 April 2006
Series ISSN: 1439-2232
Series E-ISSN: 2510-3814
Edition Number: 1
Number of Pages: XXVI, 310
Topics: Dynamical Systems and Ergodic Theory, Electrical Engineering, Control and Systems Theory, Industrial Chemistry/Chemical Engineering, Systems Theory, Control, Industrial and Production Engineering