TY - GEN
T1 - EEG Channel Selection Based on Neuron Proportion with SNN for Motor Imagery Classification
AU - Sun, Zhihui
AU - Fan, Chaoqiong
AU - Jia, Tianyuan
AU - Li, Qing
AU - Wu, Xia
N1 - Publisher Copyright:
© 2023 IEEE.
PY - 2023
Y1 - 2023
N2 - The brain computer interface (BCI) technology based on motor imagery has great potential for various control and communication tasks. However, the presence of a large number of EEG channels leads to redundant information, which affects processing speed and classification accuracy. Spiking neural networks (SNN) have the potential to process EEG data by transmitting pulsing activity between synapses and neurons situated in space. Neucube is an SNN architecture inspired by the human brain structure that allows for end-to-end learning, classification, and understanding of spatiotemporal data at low power consumption, saving computing power and reducing operational complexity. By utilizing this model, the temporal and spatial information of EEG signals can be considered to explore the importance and correlation of spatial neurons corresponding to EEG channels during the classification process. Thus, this study aimed to use the Neucube model based on SNN to select the most influential EEG signal channels in the classification process. This improvement mainly focuses on improving classification accuracy and reducing energy consumption to enhance the practical application performance of BCI systems. The proposed method was tested on the BCI Competition IV Dataset 2A. After deleting several unimportant EEG channels, the classification accuracy was improved, and the energy consumption was reduced.
AB - The brain computer interface (BCI) technology based on motor imagery has great potential for various control and communication tasks. However, the presence of a large number of EEG channels leads to redundant information, which affects processing speed and classification accuracy. Spiking neural networks (SNN) have the potential to process EEG data by transmitting pulsing activity between synapses and neurons situated in space. Neucube is an SNN architecture inspired by the human brain structure that allows for end-to-end learning, classification, and understanding of spatiotemporal data at low power consumption, saving computing power and reducing operational complexity. By utilizing this model, the temporal and spatial information of EEG signals can be considered to explore the importance and correlation of spatial neurons corresponding to EEG channels during the classification process. Thus, this study aimed to use the Neucube model based on SNN to select the most influential EEG signal channels in the classification process. This improvement mainly focuses on improving classification accuracy and reducing energy consumption to enhance the practical application performance of BCI systems. The proposed method was tested on the BCI Competition IV Dataset 2A. After deleting several unimportant EEG channels, the classification accuracy was improved, and the energy consumption was reduced.
KW - NeuCube
KW - channel selection
KW - motor imagery
KW - spiking neural network
UR - http://www.scopus.com/inward/record.url?scp=85189760265&partnerID=8YFLogxK
U2 - 10.1109/ICNC59488.2023.10462850
DO - 10.1109/ICNC59488.2023.10462850
M3 - Conference contribution
AN - SCOPUS:85189760265
T3 - 2023 International Conference on Neuromorphic Computing, ICNC 2023
SP - 424
EP - 429
BT - 2023 International Conference on Neuromorphic Computing, ICNC 2023
PB - Institute of Electrical and Electronics Engineers Inc.
T2 - 2023 International Conference on Neuromorphic Computing, ICNC 2023
Y2 - 15 December 2023 through 17 December 2023
ER -
