Measuring phase synchrony in brain signals
TL;DR: It is argued that whereas long‐scale effects do reflect cognitive processing, short‐scale synchronies are likely to be due to volume conduction, and ways to separate such conduction effects from true signal synchrony are discussed.
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Abstract: This article presents, for the first time, a practical method for the direct quantification of frequency-specific synchronization (i.e., transient phase-locking) between two neuroelectric signals. The motivation for its development is to be able to examine the role of neural synchronies as a putative mechanism for long-range neural integration during cognitive tasks. The method, called phase-locking statistics (PLS), measures the significance of the phase covariance between two signals with a reasonable time-resolution (,100 ms). Unlike the more traditional method of spectral coherence, PLS separates the phase and amplitude components and can be directly interpreted in the framework of neural integration. To validate synchrony values against background fluctuations, PLS uses surrogate data and thus makes no a priori assumptions on the nature of the experimental data. We also apply PLS to investigate intracortical recordings from an epileptic patient performing a visual discrimination task. We find large-scale synchronies in the gamma band (45 Hz), e.g., between hippocampus and frontal gyrus, and local synchronies, within a limbic region, a few cm apart. We argue that whereas long-scale effects do reflect cognitive processing, short-scale synchronies are likely to be due to volume conduction. We discuss ways to separate such conduction effects from true signal synchrony. Hum Brain Mapping 8:194-208, 1999. r 1999 Wiley-Liss, Inc.
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Citations
Bi-phase locking — a tool for probing non-linear interaction in the human brain
TL;DR: The bPLV is an extension of the well known phase-locking value (PLV) and is specifically sensitive to non-linear interactions, i.e. quadratic phase coupling across frequencies, and robust to spurious synchronization arising from linear crosstalk.
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Laminar profile of spontaneous and evoked theta: Rhythmic modulation of cortical processing during word integration
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TL;DR: These findings show that theta occurs spontaneously, and can be momentarily suppressed, reset and synchronized by words, and represents an alternation between feedforward/divergent and associative/convergent processing modes that may temporally organize sustained processing and optimize the timing of memory formation.
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Rapid coordination of effective learning by the human hippocampus.
TL;DR: This article showed that the human hippocampus contributes to long-term memory through remarkably short-term processing, as reflected in eye movements during scene encoding, which can be used to guide effective behaviors during learning.
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Computational Aspects of Cognition and Consciousness in Intelligent Devices
TL;DR: Computational intelligence methods of sensory perception and cognitive functions in animals, humans, and artificial devices and top-down symbolic methods and bottom-up sub-symbolic approaches are described.
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TL;DR: In this paper, a functional unit (FU) is defined as a spatially connected set of electrodes recording pairwise significantly coherent signals, represented in the coherence graph by a spatial connected clique.
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