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Conference record. Asilomar Conference on Signals, Systems & Computers
Nov, 2016;2016 1056-1060.

A Multitaper, Causal Decomposition for Stochastic, Multivariate Time Series: Application to High-Frequency Calcium Imaging Data.

Andrew T Sornborger, James D Lauderdale
Author Information
  1. Andrew T Sornborger: Department of Mathematics, University of California, Davis, CA.
  2. James D Lauderdale: Department of Cellular Biology, University of Georgia, Athens, GA.
PMID: 28649174 DOI: 10.1109/ACSSC.2016.7869531

Abstract

Neural data analysis has increasingly incorporated causal information to study circuit connectivity. Dimensional reduction forms the basis of most analyses of large multivariate time series. Here, we present a new, multitaper-based decomposition for stochastic, multivariate time series that acts on the covariance of the time series at all lags, (), as opposed to standard methods that decompose the time series, (), using only information at zero-lag. In both simulated and neural imaging examples, we demonstrate that methods that neglect the full causal structure may be discarding important dynamical information in a time series.

Keywords

Causality Dimension Reduction Matrix Decomposition Multitaper Methods Multivariate Time Series Neural Imaging Spectral Analysis

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Grants

  1. R01 NS090645/NINDS NIH HHS
Journal Article

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