Αρχειοθήκη ιστολογίου

Σάββατο 21 Απριλίου 2018

An asymptotic theory for cross-correlation between auto-correlated sequences and its application on neuroimaging data

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Publication date: Available online 20 April 2018
Source:Journal of Neuroscience Methods
Author(s): Yunyi Zhou, Chenyang Tao, Wenlian Lu, Jianfeng Feng
BackgroundFunctional connectivity is among the most important tools to study brain. The correlation coefficient, between time series of different brain areas, is the most popular method to quantify functional connectivity. Correlation coefficient in practical use assumes the data to be temporally independent. However, the time series data of brain can manifest significant temporal auto-correlation.New methodA widely applicable method is proposed for correcting temporal auto-correlation. We considered two types of time series models: (1) auto-regressive-moving-average model, (2) nonlinear dynamical system model with noisy fluctuations, and derived their respective asymptotic distributions of correlation coefficient. These two types of models are most commonly used in neuroscience studies. We show the respective asymptotic distributions share a unified expression.ResultWe have verified the validity of our method, and shown our method exhibited sufficient statistical power for detecting true correlation on numerical experiments. Employing our method on real dataset yields more robust functional network and higher classification accuracy than conventional methods.Comparison with existing methodsOur method robustly controls the type I error while maintaining sufficient statistical power for detecting true correlation in numerical experiments, where existing methods measuring association (linear and nonlinear) fail.ConclusionsIn this work, we proposed a widely applicable approach for correcting the effect of temporal auto-correlation on functional connectivity. Empirical results favors the use of our method in functional network analysis.



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