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Robust Systems Theory and Applications

ISBN-13: 9780471176275 / Angielski / Twarda / 1998 / 490 str.

Ricardo Sanchez-Pena; Mario Sznaier;Sanchez-Pena

Robust Systems Theory and Applications

ISBN-13: 9780471176275 / Angielski / Twarda / 1998 / 490 str.

Ricardo Sanchez-Pena; Mario Sznaier;Sanchez-Pena

cena 881,08
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A complete, up-to-date textbook on an increasingly important subject

Robust Systems Theory and Applications covers both the techniques used in linear robust control analysis/synthesis and in robust (control-oriented) identification. The main analysis and design methods are complemented by elaborated examples and a group of worked-out applications that stress specific practical issues: nonlinearities, robustness against changes in operating conditions, uncertain infinite dimensional plants, and actuator and sensor limitations. Designed expressly as a textbook for master's and first-year PhD students, this volume:
* Introduces basic robustness concepts in the context of SISO systems described by Laplace transforms, establishing connections with well-known classical control techniques
* Presents the internal stabilization problem from two different points of view: algebraic and state --space
* Introduces the four basic problems in robust control and the Loop shaping design method Presents the optimal *2 control problem from a different viewpoint, including an analysis of the robustness properties of *2 controllers and a treatment of the generalized *2 problem
* Presents the *2 control problem using both the state-space approach developed in the late 1980s and a Linear Matrix Inequality approach (developed in the mid 1990s) that encompasses more general problems
* Discusses more general types of uncertainties (parametric and mixed type) and -synthesis as a design tool
* Presents an overview of optimal,1 control theory and covers the fundamentals of its star-norm approximation
* Presents the basic tools of model order reduction
* Provides a tutorial on robust identification
* Offers numerous end-of-chapter problems and worked-out examples of robust control

Kategorie:

Technologie

Kategorie BISAC:

Technology & Engineering > Robotics
Technology & Engineering > Electrical
Technology & Engineering > Engineering (General)

Wydawca:

Wiley-Interscience

Seria wydawnicza:

Adaptive and Learning Systems for Signal Processing, Communi

Język:

Angielski

ISBN-13:

9780471176275

Rok wydania:

1998

Numer serii:

000000159

Ilość stron:

490

Waga:

0.83 kg

Wymiary:

24.13 x 16.26 x 2.95

Oprawa:

Twarda

Wolumenów:

Dodatkowe informacje:

Bibliografia
Wydanie ilustrowane

SISO Systems.

Stabilization.

Loop Shaping.

H2 Optimal Control.

H infinity Control.

Structured Uncertainty.

L?1 Control.

Model Order Reduction.

Robust Identification.

Application Examples.

Appendices.

RICARDO S. SANCHEZ–PE?A, MSEE, PhD, is a researcher at the National Commission of Space Activities (CONAE) and Professor of Control Systems at the School of Engineering at the University of Buenos Aires, Argentina.

MARIO SZNAIER, MSEE, PhD, is an Associate Professor in the Department of Electrical Engineering at Pennsylvania State University, University Park, USA.

A complete, up–to–date textbook on an increasingly important subject

Robust Systems Theory and Applications covers both the techniques used in linear robust control analysis/synthesis and in robust (control–oriented) identification. The main analysis and design methods are complemented by elaborated examples and a group of worked–out applications that stress specific practical issues: nonlinearities, robustness against changes in operating conditions, uncertain infinite dimensional plants, and actuator and sensor limitations. Designed expressly as a textbook for master′s and first–year PhD students, this volume:

Introduces basic robustness concepts in the context of SISO systems described by Laplace transforms, establishing connections with well–known classical control techniques
Presents the internal stabilization problem from two different points of view: algebraic and state space
Introduces the four basic problems in robust control and the Loop shaping design method Presents the optimal ∗2 control problem from a different viewpoint, including an analysis of the robustness properties of ∗2 controllers and a treatment of the generalized ∗2 problem
Presents the ∗2 control problem using both the state–space approach developed in the late 1980s and a Linear Matrix Inequality approach (developed in the mid 1990s) that encompasses more general problems
Discusses more general types of uncertainties (parametric and mixed type) and µµ–synthesis as a design tool
Presents an overview of optimal ,1 control theory and covers the fundamentals of its star–norm approximation
Presents the basic tools of model order reduction
Provides a tutorial on robust identification
Offers numerous end–of–chapter problems and worked–out examples of robust control

Sanchez-Pena, Ricardo Sanchez-Pena-CONAE, Buenos Aires, Argentina... więcej >

Sznaier, Mario Sznaier-Pennsylvania State Univer., University Par... więcej >

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