Stochastic modeling of neurobiological time series: Power, coherence, Granger causality, and separation of evoked responses from ongoing activity

Stochastic modeling of neurobiological time series: Power, coherence, Granger causality, and separation of evoked responses from ongoing activity

In this article we consider the stochastic modeling of neurobiological time series from cognitive experiments. Our starting point is the variable-signal-plus-ongoing-activity model. From this model a differentially variable component analysis strategy is developed from a Bayesian perspective to esti...

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Veröffentlicht in:Chaos (Woodbury, N.Y.) N.Y.), 2006-06, Vol.16 (2), p.026113-026113
Hauptverfasser: Chen, Yonghong, Bressler, Steven L., Knuth, Kevin H., Truccolo, Wilson A., Ding, Mingzhou
Format: Artikel
Sprache:eng
Schlagworte:
Action Potentials - physiology
Biological Clocks - physiology
Brain - physiology
Causality
Electroencephalography - methods
Evoked Potentials - physiology
Humans
Models, Neurological
Models, Statistical
Nerve Net - physiology
Neurobiology - methods
Neurons - physiology
Stochastic Processes
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Zusammenfassung:In this article we consider the stochastic modeling of neurobiological time series from cognitive experiments. Our starting point is the variable-signal-plus-ongoing-activity model. From this model a differentially variable component analysis strategy is developed from a Bayesian perspective to estimate event-related signals on a single trial basis. After subtracting out the event-related signal from recorded single trial time series, the residual ongoing activity is treated as a piecewise stationary stochastic process and analyzed by an adaptive multivariate autoregressive modeling strategy which yields power, coherence, and Granger causality spectra. Results from applying these methods to local field potential recordings from monkeys performing cognitive tasks are presented.
ISSN:1054-1500
1089-7682
DOI:10.1063/1.2208455