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Mastering Frequency Domain Techniques for the Stability Analysis of LTI Time Delay Systems

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$74.00
Order Code:
CS20

 Product Description

by Rifat Sipahi

-

2019 / xviii + 174 pages / softcover / ISBN 978-1-611975-71-0 / List Price $74.00 / SIAM Member Price $51.80 / Order Code: CS20

Keywords: stability analysis, linear systems, time delay, frequency domain tools, eigenvalue based tools 

Contents
List of Figures;
List of Algorithms;
Preface;
Part I: Introduction to Linear Systems with Time Delays;
Chapter 1: Introduction;
Chapter 2: Stability in Delay and System Parameter Spaces;
Chapter 3: Analyzing Stability: Two Fundamental Examples;
Chapter 4: Discussion; 

Part II: Problems with Single Delay;
Chapter 5: Preliminaries;
Chapter 6: Stability of SISO Systems;
Chapter 7: Stabilizing PI/PID Controllers: A Frequency Sweeping Approach;
Chapter 8: Degenerate Cases;
Chapter 9: Discussion; 

Part III: Problems with Commensurate Delays;
Chapter 10: Preliminaries;
Chapter 11: Kronecker Operations;
Chapter 12: Bilinear Transformation and Its Variations;
Chapter 13: CTCR; Root Clustering;
Chapter 14: Other Approaches to Handle Commensurate Delays;
Chapter 15: Discussion; 

Part IV: Problems with Two Independent Delays;
Chapter 16: Preliminaries;
Chapter 17: CTCR; Root Clustering;
Chapter 18: CTCR Concepts and Bilinear Transformation;
Chapter 19: Kronecker Operations;
Chapter 20: Frequency Sweeping and Geometric Interpretations;
Chapter 21: Discussion;  

Bibliography;
Index.

In many dynamical systems, time delays arise because of the time it takes to measure system states, perceive and evaluate events, formulate decisions, and act on those decisions. The presence of delays may lead to undesirable outcomes; without an engineered design, the dynamics may underperform, oscillate, and even become unstable. How to study the stability of dynamical systems influenced by time delays is a fundamental question. Related issues include how much time delay the system can withstand without becoming unstable and how to change system parameters to render improved dynamic characteristics, utilize or tune the delay itself to improve dynamical behavior, and assess the stability and speed of response of the dynamics.

Mastering Frequency Domain Techniques for the Stability Analysis of LTI Time Delay Systems addresses these questions for linear time-invariant (LTI) systems with an eigenvalue-based approach built upon frequency domain techniques. Readers will find key results from the literature, including all subtopics for those interested in deeper exploration. The book presents step-by-step demonstrations of all implementations—including those that require special care in mathematics and numerical implementation—from the simpler, more intuitive ones in the introductory chapters to the more complex ones found in the later chapters. MAPLE and MATLAB code is available from the author’s website.

Audience
This multipurpose book is intended for graduate students, instructors, and researchers working in control engineering, robotics, mechatronics, network control systems, human-in-the-loop systems, human-machine systems, remote control and tele-operation, transportation systems, energy systems, and process control, as well as for those working in applied mathematics, systems biology, and physics. It can be used as a primary text in courses on stability and control of time delay systems and as a supplementary text in courses in the above listed domains.

About the Author
Rifat Sipahi is a professor in the department of mechanical and industrial engineering at Northeastern University in Boston. He is the recipient of a 2011 DARPA Young Faculty Award and the 2015 ASME Dynamic Systems and Control Division Outstanding Young Investigator Award. Professor Sipahi is chair of the conference editorial board of the ASME Dynamic Systems and Control Conference and an associate editor for Automatica. He is a Fellow of ASME and a senior member of IEEE, and his research interests include stability, stabilization of dynamical systems at the interplay between multiple time delays and network graphs, human-machine systems, and human-robotic interactions.

 

ISBN 9781611975710

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