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Partial Differential Control Theory: Volume I: Mathematical Tools, Volume II: Control System: 530 (Mathematics and Its Applications) - Tapa dura
Sinopsis
The mathematical theory of "open" dynamical systems is a creation of the twentieth century. Its humble beginnings focused on ideas of Laplace transforms applied to linear problems of automatic control and to the analysis and synthesis of electrical circuits. However during the second half of the century, it flowered into a field based on an array of sophisticated mathematical concepts and techniques from algebra, nonlinear analysis and differential geometry. The central notion is that of a dynamical system that exchanges matter, energy, or information with its surroundings, i.e. an "open" dynamical system. The mathema tization of this notion evolved considerably over the years. The early development centered around the input/output point of view and led to important results, particularly in controller design. Thinking about open systems as a "black box" that accepts stimuli and produces responses has had a wide influence also in areas outside engineering, for example in biology, psychology, and economics. In the early 1960's, especially through the work of Kalman, input/state/output models came in vogue. This model class accommodates very nicely the internal initial conditions that are essentially always present in a dynamical system. The introduction of input/state/output models led to a tempestuous development that made systems and control into a mature discipline with a wide range of concepts, results, algorithms, and applications.
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`...the book provides interesting and engaging reading, particularly to those who wish to learn about the algebraic-geometric aspects of control theory.'
Mathematical Reviews, 2002
Reseña del editor
The mathematical theory of "open" dynamical systems is a creation of the twentieth century. Its humble beginnings focused on ideas of Laplace transforms applied to linear problems of automatic control and to the analysis and synthesis of electrical circuits. However during the second half of the century, it flowered into a field based on an array of sophisticated mathematical concepts and techniques from algebra, nonlinear analysis and differential geometry. The central notion is that of a dynamical system that exchanges matter, energy, or information with its surroundings, i.e. an "open" dynamical system. The mathema tization of this notion evolved considerably over the years. The early development centered around the input/output point of view and led to important results, particularly in controller design. Thinking about open systems as a "black box" that accepts stimuli and produces responses has had a wide influence also in areas outside engineering, for example in biology, psychology, and economics. In the early 1960's, especially through the work of Kalman, input/state/output models came in vogue. This model class accommodates very nicely the internal initial conditions that are essentially always present in a dynamical system. The introduction of input/state/output models led to a tempestuous development that made systems and control into a mature discipline with a wide range of concepts, results, algorithms, and applications.
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- EditorialSpringer
- Año de publicación2001
- ISBN 10 0792370376
- ISBN 13 9780792370376
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- IdiomaInglés
- Número de páginas957
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Partial Differential Control Theory, Volume I [1] und II [2] (beide Bände) : I: Mathematical Tools / II: Control Systems : (Reihe: MIA - Mathematics and Its Applications, Volume 530)
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Kluwer Academic Publishers, Dordrecht, 2001
ISBN 10: 0792370376
ISBN 13: 9780792370376
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Hardcover. Condición: Gut. Einbände mit geringen Gebrauchs-/Regalspuren - ansonsten saubere und sehr gute Bände. Hardcover. 963 Seiten. 1636 Gramm. 24x16cm. Englisch. Lieferumfang: Beide Volumes/Bände. Volume I: Mathematical Tools (ISBN 079237035X; VIII, 566 Seiten; 942 Gramm) / Volume II: Control Systems (ISBN 0792370368; Seiten 567 bis 957; 694 Gramm). Nº de ref. del artículo: 69877
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Partial Differential Control Theory
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Condición: New. Dieser Artikel ist ein Print on Demand Artikel und wird nach Ihrer Bestellung fuer Sie gedruckt. The mathematical theory of open dynamical systems is a creation of the twentieth century. Its humble beginnings focused on ideas of Laplace transforms applied to linear problems of automatic control and to the analysis and synthesis of electrical circuits. Nº de ref. del artículo: 5969866
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Partial Differential Control Theory
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Springer Netherlands Jun 2001, 2001
ISBN 10: 0792370376
ISBN 13: 9780792370376
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Buch. Condición: Neu. This item is printed on demand - it takes 3-4 days longer - Neuware -The mathematical theory of 'open' dynamical systems is a creation of the twentieth century. Its humble beginnings focused on ideas of Laplace transforms applied to linear problems of automatic control and to the analysis and synthesis of electrical circuits. However during the second half of the century, it flowered into a field based on an array of sophisticated mathematical concepts and techniques from algebra, nonlinear analysis and differential geometry. The central notion is that of a dynamical system that exchanges matter, energy, or information with its surroundings, i.e. an 'open' dynamical system. The mathema tization of this notion evolved considerably over the years. The early development centered around the input/output point of view and led to important results, particularly in controller design. Thinking about open systems as a 'black box' that accepts stimuli and produces responses has had a wide influence also in areas outside engineering, for example in biology, psychology, and economics. In the early 1960's, especially through the work of Kalman, input/state/output models came in vogue. This model class accommodates very nicely the internal initial conditions that are essentially always present in a dynamical system. The introduction of input/state/output models led to a tempestuous development that made systems and control into a mature discipline with a wide range of concepts, results, algorithms, and applications. 980 pp. Englisch. Nº de ref. del artículo: 9780792370376
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Partial Differential Control Theory : Volume I: Mathematical Tools, Volume II: Control System
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Springer Netherlands, Springer Netherlands, 2001
ISBN 10: 0792370376
ISBN 13: 9780792370376
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Buch. Condición: Neu. Druck auf Anfrage Neuware - Printed after ordering - The mathematical theory of 'open' dynamical systems is a creation of the twentieth century. Its humble beginnings focused on ideas of Laplace transforms applied to linear problems of automatic control and to the analysis and synthesis of electrical circuits. However during the second half of the century, it flowered into a field based on an array of sophisticated mathematical concepts and techniques from algebra, nonlinear analysis and differential geometry. The central notion is that of a dynamical system that exchanges matter, energy, or information with its surroundings, i.e. an 'open' dynamical system. The mathema tization of this notion evolved considerably over the years. The early development centered around the input/output point of view and led to important results, particularly in controller design. Thinking about open systems as a 'black box' that accepts stimuli and produces responses has had a wide influence also in areas outside engineering, for example in biology, psychology, and economics. In the early 1960's, especially through the work of Kalman, input/state/output models came in vogue. This model class accommodates very nicely the internal initial conditions that are essentially always present in a dynamical system. The introduction of input/state/output models led to a tempestuous development that made systems and control into a mature discipline with a wide range of concepts, results, algorithms, and applications. Nº de ref. del artículo: 9780792370376
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Partial Differential Control Theory
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Springer Netherlands, Springer Netherlands Jun 2001, 2001
ISBN 10: 0792370376
ISBN 13: 9780792370376
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Librería: buchversandmimpf2000, Emtmannsberg, BAYE, Alemania
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Buch. Condición: Neu. Neuware -The mathematical theory of 'open' dynamical systems is a creation of the twentieth century. Its humble beginnings focused on ideas of Laplace transforms applied to linear problems of automatic control and to the analysis and synthesis of electrical circuits. However during the second half of the century, it flowered into a field based on an array of sophisticated mathematical concepts and techniques from algebra, nonlinear analysis and differential geometry. The central notion is that of a dynamical system that exchanges matter, energy, or information with its surroundings, i.e. an 'open' dynamical system. The mathema tization of this notion evolved considerably over the years. The early development centered around the input/output point of view and led to important results, particularly in controller design. Thinking about open systems as a 'black box' that accepts stimuli and produces responses has had a wide influence also in areas outside engineering, for example in biology, psychology, and economics. In the early 1960's, especially through the work of Kalman, input/state/output models came in vogue. This model class accommodates very nicely the internal initial conditions that are essentially always present in a dynamical system. The introduction of input/state/output models led to a tempestuous development that made systems and control into a mature discipline with a wide range of concepts, results, algorithms, and applications.Springer Verlag GmbH, Tiergartenstr. 17, 69121 Heidelberg 980 pp. Englisch. Nº de ref. del artículo: 9780792370376
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