This repository maintains the complete list of resources to compute the resonance mechanism.
Lomas James Derek, Lin Albert, Dikker Suzanne, Forster Deborah, Lupetti Maria Luce, Huisman Gijs, Habekost Julika, Beardow Caiseal, Pandey Pankaj, Ahmad Nashra, Miyapuram Krishna, Mullen Tim, Cooper Patrick, van der Maden Willem, Cross Emily S.
Predicting Neural Resonance in Naturalistic Scenarios: A Computational Framework to Establish Neural Marker to Observe Internal and External Entrainment, MindBrainBody Symposium, 2022
The below figure depicts two objects with oscillatory properties, such as persons. The link shows a relationship between the property of one object to another. The linkage between property would define the relationship, and depending on the relationship obtained, a type of resonance can be defined.
Resonance can be distinguished as a metaphor and physical mechanism. Neural resonance is a physical phenomenon that refers to the synchronization and amplification of brain oscillations to features of internal/external oscillators. Entrainment is a type of resonance, which can be further defined as external and internal.We aim to create a framework for the measurement and analysis used to decode the brain oscillations in naturalistic scenarios. Insofar as naturalistic stimuli are also captured, they can be compared to the concurrent brain oscillations. Entrainment and resonance are theoretically informed mechanisms describing how subjects are likely to respond to naturalistic stimuli that is oscillatory in nature. A framework of resonance/entrainment can therefore inform how the brain will respond to stimuli in naturalistic scenarios. Measures of entrainment and resonance can be assembled and applied to existing datasets and then used to inform the production of new datasets. Refer Poster here
External Entrainment |
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Stimulus-Response Correlation |
Inter-Subject Correlation |
Brain2Brain Synchrony |
Internal Entrainment |
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Coupled Internal Systems |
Decoupled Internal Systems |