'To the surprise of some undergraduates, processes do not carry labels marking their variables nor, alas, are they conveniently classified into linear, nonlinear, stochastic, etc., categories. The ability to come to terms with this situation is a prerequisite for anyone proposing to succeed in an industrial environment.' This quotation from Chapter 1 characterises the viewpoint of the book, which is concerned with the application of control theory to real problems in their industrial context.
The book is structured around the following beliefs:
(a) Economic aspects must be considered at an early stage of any project.
(b) Simple techniques and ready-made manufacturer's solutions should be applied wherever possible.
(c) More advanced techniques will be received enthusiastically in those applications where they can offer a genuine contribution.
(d) Control systems using distributed microprocessor power will have an impact that is difficult to exaggerate. Control engineers must become familiar with the concepts involved.
(e) Familiarity with a wide range of applications is indispensable in developing an efficient approach in the field of applied control theory.
This second edition includes new material and supporting references on:
robotics control
programmable logic controllers
self-tuning controllers
distributed computer control systems
biotechnological control
The book should be accessible to a wide variety of engineers. Preferably they should have an elementary knowledge of automatic control theory.
Reihe
Auflage
Sprache
Verlagsort
Zielgruppe
Für höhere Schule und Studium
Für Beruf und Forschung
Maße
Höhe: 234 mm
Breite: 156 mm
Dicke: 12 mm
Gewicht
ISBN-13
978-0-86341-089-5 (9780863410895)
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Klassifikation
Professor J.R. Leigh was educated at Cambridge and London Universities, where he gained higher degrees in both control engineering and pure mathematics. He has worked in both small and large industrial organisations on the development and application of control systems. In his current appointment at the Polytechnic of Central London, his interests are concerned with control theory, computer-aided design and industrial applications. These interests are well supported by consultancies on novel control applications. He has published or co-authored over 100 research papers and several books, including Essentials of Nonlinear Control Theory, Modelling and Simulation and Temperature Measurement and Control. His current research includes work on the control of biotechnological systems and in this field he has recently edited the book Modelling and Control of Fermentation Processes. He is a Fellow of both the Institution of Engineering and Technology and the Institute of Mathematics and its Applications, and a Member of the London Mathematical Society.
Autor*in
ProfessorPolytechnic of Central London, UK
Chapter 1: Introductory topics
Chapter 2: The economics of industrial control
Chapter 3: Measurement for control
Chapter 4: Simple controllers and methods for setting their parameters
Chapter 5: Direct digital control (DDC) algorithms for single-input/single-output processes
Chapter 6: 'Standard' methods for the control of single-input/single-output processes
Chapter 7: Further techniques for controller design
Chapter 8: Methods for the analysis and design of multi-loop processes
Chapter 9: Computer control methods
Chapter 10: A selection of applications
Chapter 11: DC motors and servomechanisms
Chapter 12: Introduction to the control aspects of robotics
