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An Empirical Method to Measure Stochasticity and Multifractality in Nonlinear Time Series

An empirical algorithm is used here to study the stochastic and multifractal nature of nonlinear time series. A parameter can be defined to quantitatively measure the deviation of the time series from a Wiener process so that the stochasticity of different time series can be compared. The local volatility of the time series under study can be constructed using this algorithm and the multifractal structure of the time series can be analyzed by using this local volatility. As an example, we employ this method to analyze financial time series from different stock markets. The result shows that while developed markets evolve very much like an Ito process, the emergent markets are far from efficient. Differences about the multifractal structures and leverage effects between developed and emergent markets are discussed. The algorithm used here can be applied in a similar fashion to study time series of other complex systems.

preprint2014arXivOpen access
Chih-Hao LinChia-Seng ChangSai-Ping Li
physics.soc-phq-fin.ST
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Chih-Hao LinChia-Seng ChangSai-Ping Li

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