DocumentCode
15486
Title
ERNN: A Biologically Inspired Feedforward Neural Network to Discriminate Emotion From EEG Signal
Author
Khosrowabadi, Reza ; Chai Quek ; Kai Keng Ang ; Wahab, Abdul
Author_Institution
Center for Comput. Intell., Nanyang Technol. Univ., Singapore, Singapore
Volume
25
Issue
3
fYear
2014
fDate
Mar-14
Firstpage
609
Lastpage
620
Abstract
Emotions play an important role in human cognition, perception, decision making, and interaction. This paper presents a six-layer biologically inspired feedforward neural network to discriminate human emotions from EEG. The neural network comprises a shift register memory after spectral filtering for the input layer, and the estimation of coherence between each pair of input signals for the hidden layer. EEG data are collected from 57 healthy participants from eight locations while subjected to audio-visual stimuli. Discrimination of emotions from EEG is investigated based on valence and arousal levels. The accuracy of the proposed neural network is compared with various feature extraction methods and feedforward learning algorithms. The results showed that the highest accuracy is achieved when using the proposed neural network with a type of radial basis function.
Keywords
electroencephalography; feature extraction; filtering theory; learning (artificial intelligence); medical signal processing; radial basis function networks; shift registers; EEG signal; ERNN; arousal level; audio-visual stimuli; biologically inspired feedforward neural network; feature extraction methods; feedforward learning algorithm; hidden layer; human emotion discrimination; input layer; input signal coherence estimation; radial basis function; shift register memory; spectral filtering; valence level; Biological neural networks; Brain models; Computer architecture; Electroencephalography; Feature extraction; Feedforward neural networks; Affective computing; EEG-based emotion recognition; arousal-valence plane; functional connectivity;
fLanguage
English
Journal_Title
Neural Networks and Learning Systems, IEEE Transactions on
Publisher
ieee
ISSN
2162-237X
Type
jour
DOI
10.1109/TNNLS.2013.2280271
Filename
6603347
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