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Regularized partial phase synchrony index applied to dynamical functional connectivity estimation

Citation Author(s):
Gaëtan Frusque, Julien Jung, Pierre Borgnat, Paulo Gonçalves
Submitted by:
Gaetan FRUSQUE
Last updated:
14 May 2020 - 3:46am
Document Type:
Presentation Slides
Document Year:
2020
Event:
Presenters:
Frusque Gaëtan
Paper Code:
SPTM-P9.2
 

We study the inference of conditional independence graph from the partial Phase Locking Value (PLV) index of multivariate time series. A typical application is the inference of temporal functional connectivity from brain data. We extend the recently proposed time-varying graphical lasso to the measurement of partial locking values, yielding a sparse and temporally coherent dynamical graph that characterizes the evolution of the phase synchrony between each pair of signals.
Cast as an optimization problem, we solve it using the alternating direction method of multipliers. The approach is validated on simulated Gaussian multivariate signals and Roessler oscillators. The potential of this regularized partial PLV is then illustrated on actual iEEG data during an epileptic seizure.

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