A Guide to Feedback Theory

Hardback

Main Details

Title A Guide to Feedback Theory
Authors and Contributors      By (author) Joel L. Dawson
Physical Properties
Format:Hardback
Pages:200
Dimensions(mm): Height 235,Width 156
Category/GenreIndustrial chemistry and manufacturing technologies
Mechanical engineering and materials
Electrical engineering
Electronics and communications engineering
ISBN/Barcode 9780521199216
ClassificationsDewey:629.83
Audience
Professional & Vocational
Illustrations Worked examples or Exercises

Publishing Details

Publisher Cambridge University Press
Imprint Cambridge University Press
Publication Date 22 April 2021
Publication Country United Kingdom

Description

Do you need to understand feedback? Perhaps you're a little rusty on theory basics? Dig in to this self-contained guide for an accessible and concise explanation of the fundamentals. Distills the relevant essence of linear system theory, calculus, differential equations, linear algebra, basic physics, numerical methods, and complex analysis, and links them back to an explanation of feedback theory. Provides a tight synthesis of analytical and conceptual understanding. Maintains a focus on common use cases. Whether you are a struggling undergraduate, a doctoral student preparing for your qualifying exams, or an industry practitioner, this easy-to-understand book invites you to relax, enjoy the material, and follow your curiosity.

Author Biography

Joel L. Dawson is an entrepreneur and former MIT professor. He received a 2009 PECASE Award, the highest honor bestowed by the U.S. government on young scientists and engineers. His start up Eta Devices was a Technology Pioneer of the 2015 World Economic Forum and acquired by Nokia in 2016. His latest start up is TalkingHeads Wireless, Inc.

Reviews

'Feedback theory is an intrinsically mathematical discipline in which one can feel either submerged by formulae or driven to use blind computer simulations that hide insight. Dawson's approach is to extract visceral meaning out of this tangle, arguing that a deep understanding of dynamic stability criteria can free the designer from 'equational overload' and lead to incisive selection of the right mathematical tool for the job at hand.' Stephen D. Senturia, Massachusetts Institute of Technology 'Feedback is perhaps the most foundational concept for electronics and control systems in general, but it is often covered for specific circuits for the former, and in terms of theoretical concepts for the latter. This book provides us with a unique perspective of how feedback theory in general relates to practical systems and electronics applications.' Larry Pileggi, Carnegie Mellon University 'Recommended.' D. Z. Spicer, Choice Magazine