Linear and nonlinear system modeling:
Written and edited by a team of experts in the field, this exciting new volume presents the cutting-edge techniques, latest trends, and state-of-the-art practical applications in linear and nonlinear system modeling. Mathematical modeling of control systems is, essentially, extracting the essence of...
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| Other Authors: | , , |
|---|---|
| Format: | Electronic eBook |
| Language: | English |
| Published: |
Hoboken, NJ Beverly, MA
John Wiley & Sons, Inc
2024
Hoboken, NJ Beverly, MA Scrivener Publishing LLC 2024 |
| Subjects: | |
| Links: | https://learning.oreilly.com/library/view/-/9781119847427/?ar |
| Summary: | Written and edited by a team of experts in the field, this exciting new volume presents the cutting-edge techniques, latest trends, and state-of-the-art practical applications in linear and nonlinear system modeling. Mathematical modeling of control systems is, essentially, extracting the essence of practical problems into systematic mathematical language. In system modeling, mathematical expression deals with modeling and its applications. It is characterized that how a modeling competency can be categorized and its activity can contribute to building up these competencies. Mathematical modeling of a practical system is an attractive field of research and an advanced subject with a variety of applications. The main objective of mathematical modeling is to predict the behavior of the system under different operating conditions and to design and implement efficient control strategies to achieve the desired performance. A considerable effort has been directed to the development of models, which must be understandable and easy to analyze. It is a very difficult task to develop mathematical modeling of complicated practical systems considering all its possible high-level non-linearity and cross couple dynamics. Although mathematical modeling of nonlinear systems sounds quite interesting, it is difficult to formulate the general solution to analyze and synthesize nonlinear dynamical systems. Most of the natural processes are nonlinear, having very high computational complexity of several numerical issues. It is impossible to create any general solution or individual procedure to develop exact modeling of a non-linear system, which is often improper and too complex for engineering practices. Therefore, some series of approximation procedures are used, in order to get some necessary knowledge about the nonlinear system dynamics. There are several complicated mathematical approaches for solving these types of problems, such as functional analysis, differential geometry or the theory of nonlinear differential equations. |
| Item Description: | Description based on online resource; title from digital title page (viewed on September 11, 2024) |
| Physical Description: | 1 Online-Ressource |
| ISBN: | 9781119847533 1119847532 9781119847519 1119847516 9781119847526 1119847524 9781119847427 |
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| spelling | Linear and nonlinear system modeling edited by Tamal Roy, Suman Lata Tripathi and Souvik Ganguli Hoboken, NJ Beverly, MA John Wiley & Sons, Inc 2024 Hoboken, NJ Beverly, MA Scrivener Publishing LLC 2024 ©2024 1 Online-Ressource Text txt rdacontent Computermedien c rdamedia Online-Ressource cr rdacarrier Description based on online resource; title from digital title page (viewed on September 11, 2024) Written and edited by a team of experts in the field, this exciting new volume presents the cutting-edge techniques, latest trends, and state-of-the-art practical applications in linear and nonlinear system modeling. Mathematical modeling of control systems is, essentially, extracting the essence of practical problems into systematic mathematical language. In system modeling, mathematical expression deals with modeling and its applications. It is characterized that how a modeling competency can be categorized and its activity can contribute to building up these competencies. Mathematical modeling of a practical system is an attractive field of research and an advanced subject with a variety of applications. The main objective of mathematical modeling is to predict the behavior of the system under different operating conditions and to design and implement efficient control strategies to achieve the desired performance. A considerable effort has been directed to the development of models, which must be understandable and easy to analyze. It is a very difficult task to develop mathematical modeling of complicated practical systems considering all its possible high-level non-linearity and cross couple dynamics. Although mathematical modeling of nonlinear systems sounds quite interesting, it is difficult to formulate the general solution to analyze and synthesize nonlinear dynamical systems. Most of the natural processes are nonlinear, having very high computational complexity of several numerical issues. It is impossible to create any general solution or individual procedure to develop exact modeling of a non-linear system, which is often improper and too complex for engineering practices. Therefore, some series of approximation procedures are used, in order to get some necessary knowledge about the nonlinear system dynamics. There are several complicated mathematical approaches for solving these types of problems, such as functional analysis, differential geometry or the theory of nonlinear differential equations. Control theory Théorie de la commande Roy, Tamal HerausgeberIn edt Tripathi, Suman Lata HerausgeberIn edt Ganguli, Souvik HerausgeberIn edt 1119847427 Erscheint auch als Druck-Ausgabe 1119847427 |
| spellingShingle | Linear and nonlinear system modeling Control theory Théorie de la commande |
| title | Linear and nonlinear system modeling |
| title_auth | Linear and nonlinear system modeling |
| title_exact_search | Linear and nonlinear system modeling |
| title_full | Linear and nonlinear system modeling edited by Tamal Roy, Suman Lata Tripathi and Souvik Ganguli |
| title_fullStr | Linear and nonlinear system modeling edited by Tamal Roy, Suman Lata Tripathi and Souvik Ganguli |
| title_full_unstemmed | Linear and nonlinear system modeling edited by Tamal Roy, Suman Lata Tripathi and Souvik Ganguli |
| title_short | Linear and nonlinear system modeling |
| title_sort | linear and nonlinear system modeling |
| topic | Control theory Théorie de la commande |
| topic_facet | Control theory Théorie de la commande |
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