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Chaos Detection and Predict...
Distinguishing chaoticity from regularity in deterministic dynamical systems and specifying the subspace of the phase space in which instabilities are expected to occur is of utmost importance in as disparate areas as astronomy, particle physics and climate dynamics. To address these issues there exists a plethora of methods for chaos detection and predictability. The most commonly employed technique for investigating chaotic dynamics, i.e. the computation of Lyapunov exponents, however, may suffer a number of problems and drawbacks, for example when applied to noisy experimental data. In the last two decades, several novel methods have been developed for the fast and reliable determination of the regular or chaotic nature of orbits, aimed at overcoming the shortcomings of more traditional techniques. This set of lecture notes and tutorial reviews serves as an introduction to and overview of modern chaos detection and predictability techniques for graduate students and non-specialists. The book covers theoretical and computational aspects of traditional methods to calculate Lyapunov exponents, as well as of modern techniques like the Fast (FLI), the Orthogonal (OFLI) and the Relative (RLI) Lyapunov Indicators, the Mean Exponential Growth factor of Nearby Orbits (MEGNO), the Smaller (SALI) and the Generalized (GALI) Alignment Index and the {u8C2D}1{u9834}est for chaos
Monografía
monografia Rebiun17787606 https://catalogo.rebiun.org/rebiun/record/Rebiun17787606 cr nn 008mamaa 160303s2016 gw | s |||| 0|eng d 9783662484104 978-3-662-48410-4 10.1007/978-3-662-48410-4 doi UPVA 996878210203706 UAM 991007719748004211 UPM 991005528294604212 UCAR 991007987798004213 UR0400493 PBWR bicssc PHDT bicssc SCI012000 bisacsh Chaos Detection and Predictability Recurso electrónico] edited by Charalampos Haris Skokos, Georg A. Gottwald, Jacques Laskar 1st ed. 2016 Berlin, Heidelberg Springer Berlin Heidelberg Imprint: Springer 2016 Berlin, Heidelberg Berlin, Heidelberg Springer Berlin Heidelberg Imprint: Springer IX, 269 p. 122 illus., 78 illus. in color. online resource IX, 269 p. 122 illus., 78 illus. in color. Lecture Notes in Physics 0075-8450 915 Estimating Lyapunov exponents from time series -- Theory and applications of the fast Lyapunov Indicator (FLI) method -- Theory and applications of the Orthogonal Fast Lyapunov Indicator (OFLI and OFLI2) methods -- Theory and applications of the Mean Exponential Growth factor of Nearby Orbits (MEGNO) method -- The Smaller (SALI) and the Generalized (GALI) Alignment Indices: Efficient Methods of Chaos Detection -- The Relative Lyapunov Indicators: Theory and Application to Dynamical Astronomy -- The 0-1 Test for Chaos: A review Distinguishing chaoticity from regularity in deterministic dynamical systems and specifying the subspace of the phase space in which instabilities are expected to occur is of utmost importance in as disparate areas as astronomy, particle physics and climate dynamics. To address these issues there exists a plethora of methods for chaos detection and predictability. The most commonly employed technique for investigating chaotic dynamics, i.e. the computation of Lyapunov exponents, however, may suffer a number of problems and drawbacks, for example when applied to noisy experimental data. In the last two decades, several novel methods have been developed for the fast and reliable determination of the regular or chaotic nature of orbits, aimed at overcoming the shortcomings of more traditional techniques. This set of lecture notes and tutorial reviews serves as an introduction to and overview of modern chaos detection and predictability techniques for graduate students and non-specialists. The book covers theoretical and computational aspects of traditional methods to calculate Lyapunov exponents, as well as of modern techniques like the Fast (FLI), the Orthogonal (OFLI) and the Relative (RLI) Lyapunov Indicators, the Mean Exponential Growth factor of Nearby Orbits (MEGNO), the Smaller (SALI) and the Generalized (GALI) Alignment Index and the {u8C2D}1{u9834}est for chaos Physics Physical geography Mathematical physics Space sciences Statistical physics Physics Nonlinear Dynamics Mathematical Methods in Physics Mathematical Applications in the Physical Sciences Extraterrestrial Physics, Space Sciences Earth System Sciences Skokos, Charalampos Haris. editor Gottwald, Georg A. editor Laskar, Jacques. editor SpringerLink Book Series (Online Service) Lecture Notes in Physics 0075-8450 915