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|a 9780817681562
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|a Lynch, Stephen
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|a Dynamical Systems with Applications using MATLAB®
|h Elektronische Ressource
|c by Stephen Lynch
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|a 1st ed. 2004
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|a Boston, MA
|b Birkhäuser
|c 2004, 2004
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|a XVII, 459 p
|b online resource
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|a Preface -- A Tutorial Introduction to MATLAB® and the Symbolic Math Toolbox -- Linear Discrete Dynamical Systems -- Nonlinear Discrete Dynamical Systems -- Complex Iterative Maps -- Electromagnetic Waves and Optical Resonators -- Fractals and Multifractals -- Controlling Chaos -- Differential Equations -- Planar Systems -- Interacting Species -- Limit Cycles -- Hamiltonian Systems, Liapunov Functions, and Stability -- Bifurcation Theory -- Three Dimensional Autonomous Systems and Chaos -- Poincaré Maps and Nonautonomous Systems in the Plane -- Local and Global Bifurcations -- The Second Part of David Hilbert's Sixteenth Problem -- Neural Networks -- SIMULINK® -- Solutions to Exercises -- References -- MATLAB® Program File Index -- SIMULINK® Model File Index -- Index
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|a Complex Systems
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|a Engineering
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|a Engineering mathematics
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|a Dynamical Systems
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|a Game Theory
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|a Game theory
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|a System theory
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|a Engineering / Data processing
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|a Applications of Mathematics
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|a Mathematics
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|a Technology and Engineering
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|a Mathematical and Computational Engineering Applications
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|a Dynamical systems
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|a eng
|2 ISO 639-2
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|b SBA
|a Springer Book Archives -2004
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|a 10.1007/978-0-8176-8156-2
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|u https://doi.org/10.1007/978-0-8176-8156-2?nosfx=y
|x Verlag
|3 Volltext
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|a 620
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|a This introduction to dynamical systems theory treats both discrete dynamical systems and continuous systems. Driven by numerous examples from a broad range of disciplines and requiring only knowledge of ordinary differential equations, the text emphasizes applications and simulation utilizing MATLAB®, Simulink®, and the Symbolic Math toolbox. Beginning with a tutorial guide to MATLAB®, the text thereafter is divided into two main areas. In Part I, both real and complex discrete dynamical systems are considered, with examples presented from population dynamics, nonlinear optics, and materials science. Part II includes examples from mechanical systems, chemical kinetics, electric circuits, economics, population dynamics, epidemiology, and neural networks. Common themes such as bifurcation, bistability, chaos, fractals, instability, multistability, periodicity, and quasiperiodicity run through several chapters.
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|a Reviews of the author’s publishedbook Dynamical Systems with Applications using Maple®: "The text treats a remarkable spectrum of topics…and has a little for everyone. It can serve as an introduction to many of the topics of dynamical systems, and will help even the most jaded reader, such as this reviewer, enjoy some of the interactive aspects of studying dynamics using Maple®." –U.K. Nonlinear News "…will provide a solid basis for both research and education in nonlinear dynamical systems." –The Maple Reporter
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|a Chaos control and multifractal theories are also included along with an example of chaos synchronization. Some material deals with cutting-edge published research articles and provides a useful resource for open problems in nonlinear dynamical systems. Approximately 330 illustrations, over 300 examples, and exercises with solutions play a key role in the presentation. Over 60 MATLAB® program files and Simulink® model files are listed throughout the text; these files may also be downloaded from the Internet at: http://www.mathworks.com/matlabcentral/fileexchange/. Additional applications and further links of interest are also available at the author's website. The hands-on approach of Dynamical Systems with Applications using MATLAB® engages a wide audience of senior undergraduate and graduate students, applied mathematicians, engineers, and working scientists in various areas of the natural sciences.
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