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AuthorMohamed, Abduljalil
AuthorShaban, Khaled Bashir
AuthorMohamed, Amr
Available date2021-07-05T10:58:29Z
Publication Date2016
Publication Name2016 International Wireless Communications and Mobile Computing Conference, IWCMC 2016
ResourceScopus
URIhttp://dx.doi.org/10.1109/IWCMC.2016.7577053
URIhttp://hdl.handle.net/10576/21068
AbstractWireless electroencephalogram (EEG) sensors have been successfully applied in many medical and computer brain interface classifications. A common characteristic of wireless EEG sensors is that they are low powered devices, and hence an efficient usage of sensor energy resources is critical for any practical application. One way of minimizing energy consumption by the EEG sensors is by reducing the number of EEG channels participating in the classification process. For the purpose of classifying EEG signals, we propose a directed acyclic graph (DAG)-based channel selection algorithm. To achieve this objective, the EEG sensor channels are first realized in a complete undirected graph, where each channel is represented by a node. An edge between any two nodes indicates the collaboration between these nodes in identifying the system state; and the significance of this collaboration is quantified by a weight assigned to the edge. The complete graph is then reduced into a directed acyclic graph that encodes the knowledge of the non-increasing order of the channel ranking for each cognitive task. The channel selection algorithm utilizes this directed graph to find a maximum path such that the total weight of this path satisfies a predefined threshold. It has been demonstrated experimentally that channel utilization has been reduced by 50% in the worst case scenario for a three-state system and an EEG sensor with 14 channels; and the best classification accuracy obtained is 81%. 2016 IEEE.
Languageen
PublisherInstitute of Electrical and Electronics Engineers Inc.
SubjectBrain computer interface
Channel selection
Graph theory
Wireless EEG signal classification
TitleDirected graph-based wireless EEG sensor channel selection approach for cognitive task classification
TypeConference Paper
Pagination176-181


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