Stochastic Analysis of Scaling Time Series (inbunden)
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Inbunden (Hardback)
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Cambridge University Press
Huang, Yongxiang
148 b/w illus.
251 x 180 x 16 mm
599 g
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Stochastic Analysis of Scaling Time Series (inbunden)

Stochastic Analysis of Scaling Time Series

From Turbulence Theory to Applications

Inbunden Engelska, 2016-01-07
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Multi-scale systems, involving complex interacting processes that occur over a range of temporal and spatial scales, are present in a broad range of disciplines. Several methodologies exist to retrieve this multi-scale information from a given time series; however, each method has its own limitations. This book presents the mathematical theory behind the stochastic analysis of scaling time series, including a general historical introduction to the problem of intermittency in turbulence, as well as how to implement this analysis for a range of different applications. Covering a variety of statistical methods, such as Fourier analysis and wavelet transforms, it provides readers with a thorough understanding of the techniques and when to apply them. New techniques to analyse stochastic processes, including empirical mode decomposition, are also explored. Case studies, in turbulence and ocean sciences, are used to demonstrate how these statistical methods can be applied in practice, for students and researchers.
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Övrig information

Franois G. Schmitt is Research Professor in the Laboratory of Oceanography and Geosciences at the Centre National de la Recherche Scientifique (CNRS), France. His research interests include turbulence and nonlinear variability in geophysics, marine turbulence, and multifractal analysis and modelling. Yongxiang Huang is Associate Professor in the State Key Laboratory of Marine Environmental Science at Xiamen University, China. He was awarded the 2013 Division Outstanding Young Scientists Award by the European Geosciences Union in Nonlinear Processes in Geosciences.


Preface; 1. Introduction: a multiscale and turbulent-like world; 2. Homogeneous turbulence and intermittency; 3. Scaling and intermittent stochastic processes; 4. New methodologies to deal with nonlinear and scaling time series; 5. Applications: case studies in turbulence; 6. Applications: case studies in ocean and atmospheric sciences; References; Index.