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Modelling the perception of music in brain network dynamics

Jakub Sawicki, Lenz Hartmann, Rolf Bader, Eckehard Schöll

2022Frontiers in Network Physiology13 citationsDOIOpen Access PDF

Abstract

We analyze the influence of music in a network of FitzHugh-Nagumo oscillators with empirical structural connectivity measured in healthy human subjects. We report an increase of coherence between the global dynamics in our network and the input signal induced by a specific music song. We show that the level of coherence depends crucially on the frequency band. We compare our results with experimental data, which also describe global neural synchronization between different brain regions in the gamma-band range in a time-dependent manner correlated with musical large-scale form, showing increased synchronization just before transitions between different parts in a musical piece (musical high-level events). The results also suggest a separation in musical form-related brain synchronization between high brain frequencies, associated with neocortical activity, and low frequencies in the range of dance movements, associated with interactivity between cortical and subcortical regions.

Topics & Concepts

Coherence (philosophical gambling strategy)Synchronization (alternating current)PerceptionInteractivityDanceMusicalNetwork dynamicsBrain activity and meditationRange (aeronautics)Dynamics (music)PsychologyComputer scienceNeuroscienceCommunicationElectroencephalographyCognitive psychologyPhysicsAcousticsMathematicsArtTelecommunicationsDiscrete mathematicsMultimediaQuantum mechanicsVisual artsMaterials scienceComposite materialLiteratureChannel (broadcasting)Neural dynamics and brain functionNeuroscience and Music PerceptionFunctional Brain Connectivity Studies
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