Extraction of Inherent Frequency Components of Multiway EEG Data Using Two-Stage Neural Canonical Correlation Analysis
This paper presents an algorithm for extracting underlying frequency components of massive Electroencephalogram (EEG) data. Frequency components of these data play a vital role to realize brain-body condition. Usually, a huge amount of time and specially built computers are essential to process...
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| Main Authors: | , |
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| Format: | Article |
| Language: | English English |
| Published: |
Canadian Center of Science and Education
2014
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| Subjects: | |
| Online Access: | http://eprints.unisza.edu.my/4925/1/FH02-FRTK-14-00379.pdf http://eprints.unisza.edu.my/4925/2/FH02-FSTK-14-01048.jpg http://eprints.unisza.edu.my/4925/ |
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| Summary: | This paper presents an algorithm for extracting underlying frequency components of massive
Electroencephalogram (EEG) data. Frequency components of these data play a vital role to realize brain-body
condition. Usually, a huge amount of time and specially built computers are essential to process these EEG data
having different subjects. It also restricts to visualize inherent frequency of EEG for a general practitioner. An
algorithm is developed using two-stage cascaded architecture of canonical correlation analysis with neural
network named multiway neural canonical correlation analysis (MNCCA) to address three major challenges for
extracting frequency components from EEG data, such as: (a) It processes multiway data which are feed
sequentially into neural network, rather than feeding whole data at a time, (b) It uses the conventional personal
computer instead of special computer built for such application, (c) It spends very short time for a moderate data
set consisting of several ways (time, trials and channels). The experimental results are obtained with three
different kinds of networks having linear, nonlinear and nonlinear feedback structures. The inherent dominant
frequency of 1 Hz having a quite resemblance with EEG landscape has been found. This provides a great
opportunity in analyzing brain-body function. |
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