| Modeling Identification and Simulation of Dynamical System Contributor(s): Bosch, P. P. J. Van Den (Author), Van Den Bosch, P. (Author), Van Den Bossche, Alex (Author) |
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ISBN: 0849391814 ISBN-13: 9780849391811 Publisher: Routledge OUR PRICE: $237.50 Product Type: Hardcover - Other Formats Published: September 1994 Annotation: This book gives an in-depth introduction to the areas of modeling, identification, simulation, and optimization. These scientific topics play an increasingly dominant part in many engineering areas such as electrotechnology, mechanical engineering, aerospace, and physics. This book represents a unique and concise treatment of the mutual interactions among these topics. Techniques for solving general nonlinear optimization problems as they arise in identification and many synthesis and design methods are detailed. The main points in deriving mathematical models via prior knowledge concerning the physics describing a system are emphasized. Several chapters discuss the identification of black-box models. Simulation is introduced as a numerical tool for calculating time responses of almost any mathematical model. The last chapter covers optimization, a generally applicable tool for formulating and solving many engineering problems. |
| Additional Information |
| BISAC Categories: - Science | Chaotic Behavior In Systems - Technology & Engineering | Industrial Engineering - Mathematics | Reference |
| Dewey: 003.85 |
| LCCN: 94019228 |
| Physical Information: 0.68" H x 7.02" W x 10.5" (1.36 lbs) 208 pages |
| Descriptions, Reviews, Etc. |
| Publisher Description: This book gives an in-depth introduction to the areas of modeling, identification, simulation, and optimization. These scientific topics play an increasingly dominant part in many engineering areas such as electrotechnology, mechanical engineering, aerospace, and physics. This book represents a unique and concise treatment of the mutual interactions among these topics. Techniques for solving general nonlinear optimization problems as they arise in identification and many synthesis and design methods are detailed. The main points in deriving mathematical models via prior knowledge concerning the physics describing a system are emphasized. Several chapters discuss the identification of black-box models. Simulation is introduced as a numerical tool for calculating time responses of almost any mathematical model. The last chapter covers optimization, a generally applicable tool for formulating and solving many engineering problems. |
