New Algorithms for Encoding, Learning and Classification of fMRI Data in a Dpiking Neural Network Architecture: A Case on Modelling and Understanding of Dynamic Cognitive
New Algorithms for Encoding, Learning and Classification of fMRI Data in a Dpiking Neural Network Architecture: A Case on Modelling and Understanding of Dynamic Cognitive
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Date
2016-12-07
Authors
Kasabov, N
Zhou, L
Doborjeh, M
Gholami, Z
Jie Yang
Supervisor
Item type
Journal Article
Degree name
Journal Title
Journal ISSN
Volume Title
Publisher
IEEE
Abstract
The paper argues that, the third generation of neural networks – the spiking neural networks (SNN), can be used to model dynamic, spatio-temporal, cognitive brain processes measured as functional magnetic resonance imaging (fMRI) data. The paper proposes a novel method based on the NeuCube SNN architecture for which the following new algorithms are introduced: fMRI data encoding into spike sequences; deep unsupervised learning of fMRI data in a 3D SNN reservoir; classification of cognitive states; connectivity visualization and analysis for the purpose of understanding cognitive dynamics. The method is illustrated on two case studies of cognitive data modelling from a benchmark fMRI data set of seeing a picture versus reading a sentence.
Description
Keywords
Neuromorphic cognitive systems , Spiking neural networks , fMRI data , NeuCube , Deep learning in spiking neural networks , Brain functional connectivity , Classification
Source
IEEE Transactions on Cognitive and Developmental Systems , vol.PP, no.99, pp.1-1
Publisher's version
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