Please use this identifier to cite or link to this item: http://hdl.handle.net/10397/25100
Title: A comparative study of pattern synchronization detection between neural signals using different cross-entropy measures
Authors: Xie, HB
Guo, JY
Zheng, YP 
Keywords: Cross-entropy
Neural dynamics
Nonlinear time series analysis
Pattern synchronization
Issue Date: 2010
Publisher: Springer
Source: Biological Cybernetics, 2010, v. 102, no. 2, p. 123-135 How to cite?
Journal: Biological Cybernetics 
Abstract: Cross-approximate entropy (X-ApEn) and cross-sample entropy (X-SampEn) have been employed as bivariate pattern synchronization measures for characterizing interdependencies between neural signals. In this study, we proposed a new measure, cross-fuzzy entropy (X-FuzzyEn), to describe the synchronicity of patterns. The performances of three statistics were first quantitatively tested using five different coupled systems including both deterministic and stochastic models, i.e., coupled broadband noises, Lorenz-Lorenz, Rossler-Rossler, Rossler-Lorenz, and neural mass model. All the measures were compared with each other with respect to their ability to distinguish between different levels of coupling and their robustness against noise. The three measures were then applied to a real-life problem, pattern synchronization analysis of left and right hemisphere rat electroencephalographic (EEG) signals. Both simulated and real EEG data analysis results showed that the X-FuzzyEn provided an improved evaluation of bivariate series pattern synchronization and could be more conveniently and powerfully applied to different neural dynamical systems contaminated by noise.
URI: http://hdl.handle.net/10397/25100
DOI: 10.1007/s00422-009-0354-1
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