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Feedback Control Theory
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Product Details
Author:
John C. Doyle, Bruce A. Francis, Allen R. Tannenbaum
Format:
Paperback
Pages:
224
Publisher:
Dover Publications (January 15, 2009)
Language:
English
ISBN-13:
9780486469331
ISBN-10:
0486469336
Weight:
11.52oz
Dimensions:
6.14" x 9.21"
Case Pack:
36
Series:
Dover Books on Electrical Engineering
File:
Dover-Dover_06012026_P10157433_onix30_Complete-20260601.xml
As low as:
$15.15
List Price:
$15.95
Publisher Identifier:
P-DOVER
Discount Code:
D
Audience:
College/higher education
Pub Discount:
65
Imprint:
Dover Publications
Folder:
Dover
Overview
An excellent introduction to feedback control system design, this book offers a theoretical approach that captures the essential issues and can be applied to a wide range of practical problems. Its explorations of recent developments in the field emphasize the relationship of new procedures to classical control theory, with a focus on single input and output systems that keeps concepts accessible to students with limited backgrounds. The text is geared toward a single-semester senior course or a graduate-level class for students of electrical engineering.
The opening chapters constitute a basic treatment of feedback design. Topics include a detailed formulation of the control design program, the fundamental issue of performance/stability robustness tradeoff, and the graphical design technique of loopshaping. Subsequent chapters extend the discussion of the loopshaping technique and connect it with notions of optimality. Concluding chapters examine controller design via optimization, offering a mathematical approach that is useful for multivariable systems.
The opening chapters constitute a basic treatment of feedback design. Topics include a detailed formulation of the control design program, the fundamental issue of performance/stability robustness tradeoff, and the graphical design technique of loopshaping. Subsequent chapters extend the discussion of the loopshaping technique and connect it with notions of optimality. Concluding chapters examine controller design via optimization, offering a mathematical approach that is useful for multivariable systems.
