FMRI decoding using sparse neuronal networks [electronic resource]
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Online Access |
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| Format: | Thesis Electronic eBook |
| Language: | English |
| Published: |
2012.
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| Abstract: | In this thesis we propose the use of Sparse Principal Component Analysis to recover neuronal areas in Brain Imaging. We work with functional magnetic resonance imaging data focusing our attention on the dimensionality reduction stage to represent the neuronal activation within the components that contain the maximum temporal variance, tightly related with the hemodynamic response of the neurons. The motivation for the sparse representation follows the idea of the massive modularity definition of the mind where "different neural circuits are specialized for solving adaptive problems" The results show that the new sparse low dimensional basis ( Eigenbrains) generated through novel unsupervised algorithms, such as Augmented Sparse Principal Component Analysis, perform competitively in terms of neuronal activity prediction. We push the limits of the brain understanding by describing a neuronal network through each Eigenbrain component and defining a prediction neuronal model using a linear combination of them. |
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| Item Description: | Source: Masters Abstracts International, Volume: 51-04. Adviser: Francois G. Meyer. |
| Physical Description: | 61 pages. |
| ISBN: | 9781267912022 |
| Host Item Entry: | Masters Abstracts International 51-04(E) |