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The Art of Control Engineering provides a refreshingly new and practical treatment of the study of control systems. The opening chapters assume no prior knowledge of the subject and are suitable for use in introductory courses. The material then progresses smoothly to more advanced topics such as nonlinear systems, Kalman filtering, robust control, multivariable systems and discrete event controllers. Taking a practical perspective, the text demonstrates how the various techniques fit into the overall picture of control and stresses the ingenuity required in choosing the best tool for each job and deciding how to apply it. The most important topics are revisited at appropriate levels throughout the book, building up progressively deeper layers of knowledge. The Art of Control Engineering is an essential core text for undergraduate degree courses in control, electrical and electronic, systems and mechanical engineering. Its broad, practical coverage will also be very useful to postgraduate students and practising engineers.
Introduction to state-space methods covers feedback control; state-space representation of dynamic systems and dynamics of linear systems; frequency-domain analysis; controllability and observability; shaping the dynamic response; more. 1986 edition.
An Introduction To Control Systems, This Book Provides The Reader With The Basic Concepts Of Control Theory As Developed Over The Years In Both The Frequency Domain And The Time Domain. The Opening Chapters Of The Book Present A Unified Treatment Of Modelling Of Dynamic Systems, The Classical Material On The Performance Of Feedback Systems Based On The Transfer Function Approach And The Stability Of Linear Systems. Further, Various Types Of Frequency Response Plots And The Compensation Of Control Systems Have Been Presented. In Particular, The Trial-And-Error Approach To The Design Of Lead Compensators, As Found In Most Textbooks, Has Been Replaced By A Direct Method Developed In The Late 1970S.Moreover, The Design Of Pole-Placement Compensators Using Transfer Functions, The Counterpart Of The Combined Observer And State Feedback Controller, Has Been Included For The First Time In A Book Appropriate For Undergraduate And Practicing Engineers. In This Third Edition The Scheme For Pole-Placement Compensation Has Been Made Consistent With That In Chapter 12. The Chapter On Digital Control, A Rapidly Developing And Popular Area Has Been Dealt With, In An Up-To-Date Manner, This Book Is An Attempt To Aid The Student Remove The Drudgery Out Of Numerical Computations, Along With Numerous Worked Examples And Drill Problems With Answers To Help The Student In Mastering The Subject.
The Encyclopedia of Systems and Control collects a broad range of short expository articles that describe the current state of the art in the central topics of control and systems engineering as well as in many of the related fields in which control is an enabling technology. The editors have assembled the most comprehensive reference possible, and this has been greatly facilitated by the publisher’s commitment continuously to publish updates to the articles as they become available in the future. Although control engineering is now a mature discipline, it remains an area in which there is a great deal of research activity, and as new developments in both theory and applications become available, they will be included in the online version of the encyclopedia. A carefully chosen team of leading authorities in the field has written the well over 250 articles that comprise the work. The topics range from basic principles of feedback in servomechanisms to advanced topics such as the control of Boolean networks and evolutionary game theory. Because the content has been selected to reflect both foundational importance as well as subjects that are of current interest to the research and practitioner communities, a broad readership that includes students, application engineers, and research scientists will find material that is of interest.
This Encyclopedia of Control Systems, Robotics, and Automation is a component of the global Encyclopedia of Life Support Systems EOLSS, which is an integrated compendium of twenty one Encyclopedias. This 22-volume set contains 240 chapters, each of size 5000-30000 words, with perspectives, applications and extensive illustrations. It is the only publication of its kind carrying state-of-the-art knowledge in the fields of Control Systems, Robotics, and Automation and is aimed, by virtue of the several applications, at the following five major target audiences: University and College Students, Educators, Professional Practitioners, Research Personnel and Policy Analysts, Managers, and Decision Makers and NGOs.
This book covers the two broad areas of the electronics and electrical aspects of control applications, highlighting the many different types of control systems of relevance to real-life control system design. The control techniques presented are state-of-the-art. In the electronics section, readers will find essential information on microprocessor, microcontroller, mechatronics and electronics control. The low-level assembly programming language performs basic input/output control techniques as well as controlling the stepper motor and PWM dc motor. In the electrical section, the book addresses the complete elevator PLC system design, neural network plant control, load flow analysis, and process control, as well as machine vision topics. Illustrative diagrams, circuits and programming examples and algorithms help to explain the details of the system function design. Readers will find a wealth of computer control and industrial automation practices and applications for modern industries, as well as the educational sector.
Quantitative Process Control Theory explains how to solve industrial system problems using a novel control system design theory. This easy-to-use theory does not require designers to choose a weighting function and enables the controllers to be designed or tuned for quantitative engineering performance indices such as overshoot.In each chapter, a s
Presenting the latest developments in the field, Wind Energy Systems: Control Engineering Design offers a novel take on advanced control engineering design techniques for wind turbine applications. The book introduces concurrent quantitative engineering techniques for the design of highly efficient and reliable controllers, which can be used to solve the most critical problems of multi-megawatt wind energy systems. This book is based on the authors’ experience during the last two decades designing commercial multi-megawatt wind turbines and control systems for industry leaders, including NASA and the European Space Agency. This work is their response to the urgent need for a truly reliable concurrent engineering methodology for the design of advanced control systems. Outlining a roadmap for such a coordinated architecture, the authors consider the links between all aspects of a multi-megawatt wind energy project, in which the wind turbine and the control system must be cooperatively designed to achieve an optimized, reliable, and successful system. Look inside for information about the QFT Control Toolbox for Matlab, the software developed by the author to facilitate the QFT robust control design (see also the link at codypower.com). The textbook’s big-picture insights can help students and practicing engineers control and optimize a wind energy system, in which large, flexible, aerodynamic structures are connected to a demanding variable electrical grid and work automatically under very turbulent and unpredictable environmental conditions. The book covers topics including robust QFT control, aerodynamics, mechanical and electrical dynamic modeling, economics, reliability, and efficiency. It also addresses standards, certification, implementation, grid integration, and power quality, as well as environmental and maintenance issues. To reinforce understanding, the authors present real examples of experimentation with commercial multi-megawatt direct-drive wind turbines, as well as on-shore, offshore, floating, and airborne wind turbine applications. They also offer a unique in-depth exploration of the quantitative feedback theory (QFT)—a proven, successful robust control technique for real-world applications—as well as advanced switching control techniques that help engineers exceed classical linear limitations.
Robust Control System Design: Advanced State Space Techniques, Second Edition expands upon a groundbreaking and combinatorial approach to state space control system design that fully realizes the critical loop transfer function and robustness properties of state/generalized state feedback control. This edition offers many new examples and exercises to illustrate and clarify new design concepts, approaches, and procedures while highlighting the fact that state/generalized state feedback control can improve system performance and robustness more effectively than other forms of control. Revised and expanded throughout, the second edition presents an improved eigenstructure assignment design method that enhances system performance and robustness more directly and effectively and allows for adjustment of design formulations based on design testing and simulation. The author proposes the systematic controller order adjustment for the tradeoff between performance and robustness based on the complete unification of the state feedback control and static output feedback control. The book also utilizes a more accurate robust stability measure to guide control designs.
This text is designed to provide a step-by-step development methodology for systems engineering. The text will allow those not familiar with the domain to work through examples and concepts, enabling them to become adept at the tools and methodologies of the systems engineering domain. This text is the only known publication that provides a how-to approach to the challenging topic of systems engineering.