Detailansicht
Practical Control System Design
Real World Designs Implemented on Emulated Industrial Systems
ISBN/EAN: 9781394168187
Umbreit-Nr.: 283252
Sprache:
Englisch
Umfang: 384 S.
Format in cm:
Einband:
gebundenes Buch
Erschienen am 15.02.2024
Auflage: 1/2024
- Zusatztext
- Practical Control System Design This book delivers real world experience covering full-scale industrial control design, for students and professional control engineers Inspired by the authors' industrial experience in control, Practical Control System Design: Real World Designs Implemented on Emulated Industrial Systems captures that experience, along with the necessary background theory, to enable readers to acquire the tools and skills necessary to tackle real world control engineering design problems. The book draws upon many industrial projects conducted by the authors and associates; these projects are used as case studies throughout the book, organized in the form of Virtual Laboratories so that readers can explore the studies at their own pace and to their own level of interest. The real-world designs include electromechanical servo systems, fluid storage, continuous steel casting, rolling mill center line gauge control, rocket dynamics and control, cross directional control in paper machines, audio quantisation, wind power generation (including 3 phase induction machines), and boiler control. To facilitate reader comprehension, the text is accompanied by software to access the individual experiments. A full Solutions Manual for the questions set in the text is available to instructors and practicing engineers. Background theory covered in the text includes control as an inverse problem, impact of disturbances and measurement noise, sensitivity functions, Laplace transforms, Z-Transforms, shift and delta operators, stability, PID design, time delay systems, periodic disturbances, Bode sensitivity trade-offs, state space models, linear quadratic regulators, Kalman filters, multivariable systems, anti-wind up strategies, Euler angles, rotational dynamics, conservation of mass, momentum and energy as well as control of non-linear systems. Practical Control System Design: Real World Designs Implemented on Emulated Industrial Systems is a highly practical reference on the subject, making it an ideal resource for undergraduate and graduate students on a range of control system design courses. The text also serves as an excellent refresher resource for engineers and practitioners.
- Kurztext
- Introductory resource delivering real world experience with full-scale industrial control design, for students and professional control engineers Inspired and informed by the authors' industrial experience in control, Introduction to Control System Design using Emulated Industrial Experiments goes over that experience, along with necessary background theory, to enable readers to acquire the tools and skills necessary to tackle real world control engineering design problems. The book draws upon many industrial projects conducted by the authors and associates; these projects are used as case studies throughout the book, organized in the form of Virtual Laboratories so that readers can explore the studies at their own pace and to their own level of interest, covering electromechanical servo systems, fluid storage, continuous steel casting, rolling mill center line gauge control, rocket dynamics and control, cross directional control in paper machines, audio quantization, wind power generation, and boiler control. To enable reader comprehension and understanding of the subjects discussed within, the text is accompanied by software to access the individual experiments. For instructors, a full Solutions Manual to the questions set in the laboratory exercises is included. Sample topics covered in Introduction to Control System Design using Emulated Industrial Experiments include: * Control as an inverse problem, covering Eigen Value analysis, effect of process and disturbance errors, feedback control, effect of measurement noise, and sensitivity functions * Modeling, covering aspects of physical modeling such as radio telescope positioning and band pass filter, state-space model representation, and linearisation and approximation * Continuoustime signals and systems, covering linearcontinuoustime models, laplace transforms, and applying laplace transforms to linear differential equations * Analysis of linear feedback systems, covering feedback structures, nominal sensitivity functions, and polar plots to bode diagrams Introduction to Control System Design using Emulated Industrial Experiments is a highly practical reference on the subject, making it an ideal resource for undergraduate and graduate students on a range of control system design courses. The text also serves as an excellent refresher resource for engineers and practitioners.
- Autorenportrait
- Adrian Medioli is the automation engineer for Whiteley Corp. Pty. Ltd. After graduating, he spent 11 years as a senior automation engineer before completing his PhD. in Electrical Engineering in 2008 at the University of Newcastle, Australia. From 2008-2021 he was employed as a research academic for Complex Dynamic Systems and Control at the University of Newcastle. Graham Goodwin is Emeritus Laureate Professor, University of Newcastle, Australia. He is a Fellow of the Royal Society, a Foreign Member of the Royal Swedish Academy of Sciences and in 2021 he was awarded the American Control Council John Ragazzini Education Award.