Chaos is the idea that a system will produce very different long-term behaviors when the initial conditions are perturbed only slightly. Chaos is used for novel, time- or energy-critical interdisciplinary applications. Examples include high-performance circuits and devices, liquid mixing, chemical reactions, biological systems, crisis management, secure information processing, and critical decision-making in politics, economics, as well as military applications, etc. This book presents the latest investigations in the theory of chaotic systems and their dynamics. The book covers some…mehr
Chaos is the idea that a system will produce very different long-term behaviors when the initial conditions are perturbed only slightly. Chaos is used for novel, time- or energy-critical interdisciplinary applications. Examples include high-performance circuits and devices, liquid mixing, chemical reactions, biological systems, crisis management, secure information processing, and critical decision-making in politics, economics, as well as military applications, etc. This book presents the latest investigations in the theory of chaotic systems and their dynamics. The book covers some theoretical aspects of the subject arising in the study of both discrete and continuous-time chaotic dynamical systems. This book presents the state-of-the-art of the more advanced studies of chaotic dynamical systems.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Zeraoulia Elhadj, born on February 23, 1976, in Yabous, Khenchela, Algeria, received his B.S. degree in mathematics from the Institute of Mathematics (University of Batna, Batna, Algeria) in 1998 and a Ph.D. degree in mathematics from the University of Constantine, Constantine, Algeria, in 2006. He joined the Department of Mathematics, University of Tébessa, Tébessa, Algeria, in 2001 as a Research Associate, and in the same year, Elhadj became an Assistant Professor. Since 2001, he has been teaching undergraduate and graduate courses on applied mathematics. His primary research interests include bifurcations and chaos. He has authored or coauthored more than 150 journal and conference papers and 15 books. He is the Editor-in-Chief of the Annual Review of Chaos Theory, Bifurcations and Dynamical Systems Journal.
Inhaltsangabe
Review of chaotic dynamics. Roundedness of some quadratic systems. Rigorous determination of chaotic behavior in a piecewise linear planar map. Properties of perplexing dynamics of urbanization.Transformation of n-D dynamical systems to hyperjerky motion. Analytic calculation of Lyapunouv exponents for 2-D quadratic mapping. About the HIV therapy system. Robust Chaos in Neural Networks Models. Chaotic Attractors in modified map-based BVP model. Some forms of globally asymptotically stable attractors. Synchronization of 2-D piecewise smooth mappings
Review of chaotic dynamics. Roundedness of some quadratic systems. Rigorous determination of chaotic behavior in a piecewise linear planar map. Properties of perplexing dynamics of urbanization.Transformation of n-D dynamical systems to hyperjerky motion. Analytic calculation of Lyapunouv exponents for 2-D quadratic mapping. About the HIV therapy system. Robust Chaos in Neural Networks Models. Chaotic Attractors in modified map-based BVP model. Some forms of globally asymptotically stable attractors. Synchronization of 2-D piecewise smooth mappings
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