Loop Transfer Recovery: Analysis and Design
| AUTHOR | Chen, Ben M.; Sannuti, Peddapullaiah; Saberi, Ali |
| PUBLISHER | Springer (12/01/2011) |
| PRODUCT TYPE | Paperback (Paperback) |
Description
Loop Transfer Recovery (LTR) is part of the Communications and Control Engineering Series (CCES) edited by Professors B.W. Dickinson, E.D. Sontag, M. Thoma, A. Fettweis, J.L. Massey and J.W. Modestino. Loop Transfer Recovery deals with several issues of analysis and design of the Loop Transfer Recovery (LTR) problem. It discusses when and how an LTR is possible and outlines different controller structures and the available design freedom. An explanation of the actual design methods for accomplishing an LTR is given. Besides dealing with observer based measurement feedback controllers, which are commonly used for LTR, a new controller with a different architecture which out performs observer based controllers is presented. This publication will be of benefit to anyone who has completed a first graduate course in linear systems and state-space methods, together with an elementary knowledge of Linear Quadratic Control.
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Product Format
Product Details
ISBN-13:
9781447132240
ISBN-10:
1447132246
Binding:
Paperback or Softback (Trade Paperback (Us))
Content Language:
English
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Page Count:
352
Carton Quantity:
22
Product Dimensions:
6.14 x 0.76 x 9.21 inches
Weight:
1.13 pound(s)
Country of Origin:
NL
Subject Information
BISAC Categories
Technology & Engineering | Robotics
Technology & Engineering | Electrical
Technology & Engineering | Automation
Dewey Decimal:
629.831
Descriptions, Reviews, Etc.
publisher marketing
Loop Transfer Recovery (LTR) is part of the Communications and Control Engineering Series (CCES) edited by Professors B.W. Dickinson, E.D. Sontag, M. Thoma, A. Fettweis, J.L. Massey and J.W. Modestino. Loop Transfer Recovery deals with several issues of analysis and design of the Loop Transfer Recovery (LTR) problem. It discusses when and how an LTR is possible and outlines different controller structures and the available design freedom. An explanation of the actual design methods for accomplishing an LTR is given. Besides dealing with observer based measurement feedback controllers, which are commonly used for LTR, a new controller with a different architecture which out performs observer based controllers is presented. This publication will be of benefit to anyone who has completed a first graduate course in linear systems and state-space methods, together with an elementary knowledge of Linear Quadratic Control.
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Author:
Chen, Ben M.
Associate Professor Chen's research interests are in linear systems, robust control theory and control applications. He has published 7 monographs. He has served as an Associate Editor of IEEE Transactions on Automatic Control, and Asian Journal of Control. Currently, he is serving as an Associate Editor of Systems and Control Letters, and Control and Intelligent Systems. Before returning to Singapore, Professor Chen worked in the US (New York and Washington State Universites) and in Australia. He lectures on several courses, both undergraduate and graduate.
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List Price $119.99
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$118.79