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Kernel methods for fmri pattern prediction

Kernel methods for fmri pattern prediction
Kernel methods for fmri pattern prediction
In this paper, we present an effective computational approach for learning patterns of brain activity from the fMRI data. The procedure involved correcting motion artifacts, spatial smoothing, removing low frequency drifts and applying multivariate linear and non-linear kernel methods. Two novel techniques are applied: one utilizes the Cosine Transform to remove low-frequency drifts over time and the other involves using prior knowledge about the spatial contribution of different brain regions for the various tasks. Our experiment results on the PBAIC2007 competition data set show a great improvement for brain activity prediction, especially on some sensory experience such as hearing and vision.
Ni, Yizhao
0452e056-90d0-4feb-a97b-ff2689b6b492
Chu, Carlton
8c746a92-00ed-47e8-9bde-e07b38d85571
Saunders, Craig
26634635-4d4d-4469-b9ec-1d68788aa47a
Ashburner, John
973adb5d-314f-42ff-bcdf-dbda75ecbf4d
Ni, Yizhao
0452e056-90d0-4feb-a97b-ff2689b6b492
Chu, Carlton
8c746a92-00ed-47e8-9bde-e07b38d85571
Saunders, Craig
26634635-4d4d-4469-b9ec-1d68788aa47a
Ashburner, John
973adb5d-314f-42ff-bcdf-dbda75ecbf4d

Ni, Yizhao, Chu, Carlton, Saunders, Craig and Ashburner, John (2008) Kernel methods for fmri pattern prediction. WCCI 2008 (IJCNN 2008), Hong Kong, China. 01 - 06 Jun 2008.

Record type: Conference or Workshop Item (Other)

Abstract

In this paper, we present an effective computational approach for learning patterns of brain activity from the fMRI data. The procedure involved correcting motion artifacts, spatial smoothing, removing low frequency drifts and applying multivariate linear and non-linear kernel methods. Two novel techniques are applied: one utilizes the Cosine Transform to remove low-frequency drifts over time and the other involves using prior knowledge about the spatial contribution of different brain regions for the various tasks. Our experiment results on the PBAIC2007 competition data set show a great improvement for brain activity prediction, especially on some sensory experience such as hearing and vision.

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More information

Published date: 2008
Additional Information: Event Dates: June 1-6, 2008
Venue - Dates: WCCI 2008 (IJCNN 2008), Hong Kong, China, 2008-06-01 - 2008-06-06
Organisations: Electronics & Computer Science
Learn more about Electronics & Computer Science research

Identifiers

Local EPrints ID: 270945
URI: http://eprints.soton.ac.uk/id/eprint/270945
PURE UUID: c274e157-76b9-4d2d-94c8-bd078bbde1b3

Catalogue record

Date deposited: 30 Apr 2010 11:23
Last modified: 14 Mar 2024 09:19

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Contributors

Author: Yizhao Ni
Author: Carlton Chu
Author: Craig Saunders
Author: John Ashburner

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