Introduction to Mathematical Systems Theory: A Behavioral Approach (Texts in Applied Mathematics)
Using the behavioural approach to mathematical modelling, this book views a system as a dynamical relation between manifest and latent variables. Get and download textbook Introduction to Mathematical Systems Theory: A Behavioral Approach (Texts in Applied Mathematics) for free
Introduction to Mathematical Systems Theory Linear Systems, Identification and Control, ISBN-13: 9783764375485, ISBN-10: 3764375485
The emphasis is on dynamical systems that are represented by systems of linear constant coefficients. The first part analyses the structure of the set of trajectories generated by such dynamical systems, and derives the conditions for two systems of differential equations to be equivalent in the sense that they define the same behaviour. In addition the memory structure of the system is analysed through state space models. The second part of the book is devoted to a number of important system properties, notably controllability, observability, and stability. In the third part, control problems are Introduction to Mathematical Systems Theory new edition
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Introduction to Mathematical Systems Theory: Linear Systems, Identification and Control: Andr? CM Ran, Christiaan Heij, F. Van Schagen
Introduction to Mathematical Systems Theory : A Behavioral Approach: Jan C. Willems, Jan Willem Polderman
Birkhauser Verlag Ag | 2006 | 173 pages | ISBN-13: 9783764375485 | ISBN-10: 3764375485 | You save 15%
Categories: Discrete-time systems. Contributors: Christiaan Heij - Author. Format: Paperback
Introduction to Mathematical Systems Theory Textbook
The emphasis is on dynamical systems that are represented by systems of linear constant coefficients. The first part analyses the structure of the set of trajectories generated by such dynamical systems, and derives the conditions for two systems of differential equations to be equivalent in the sense that they define the same behaviour. In addition the memory structure of the system is analysed through state space models. The second part of the book is devoted to a number of important system properties, notably controllability, observability, and stability
he emphasis is on dynamical systems that are represented by systems of linear constant coefficients. The first part analyses the structure of the set of trajectories generated by such dynamical systems, and derives the conditions for two systems of differential equations to be equivalent in the sense that they define the same behaviour. In addition the memory structure of the system is analysed through state space models. The second part of the book is devoted to a number of important system properties, notably controllability, observability, and stability. In the third part, control problems are
