Influence of Feature Scaling and Number of Training Sessions on EEG Spectral-based Person Verification with Artificial Neural Networks

Influence of Feature Scaling and Number of Training Sessions on EEG Spectral-based Person Verification with Artificial Neural Networks

Research on using EEG as a biometric began over 20 years ago. However, compared to more traditional modalities like fingerprints, EEG is still relatively novel. Further studies on more extensive databases are necessary to properly verify proposed methods, accounting for temporary fluctuations in the...

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Bibliographic Details
Published in:2023 Signal Processing Symposium (SPSympo) pp. 139 - 143
Main Authors: Plucinska, Renata, Jedrzejewski, Konrad, Malinowska, Urszula, Rogala, Jacek
Format: Conference Proceeding
Language:English
Published: Warsaw University of Technology, Institute of Electronic Systems 26-09-2023
Subjects:
Artificial neural networks
biometry
Companies
EEG
Fingerprint recognition
Fluctuations
neural networks
PSD
Sensitivity
Training
verification
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Summary:Research on using EEG as a biometric began over 20 years ago. However, compared to more traditional modalities like fingerprints, EEG is still relatively novel. Further studies on more extensive databases are necessary to properly verify proposed methods, accounting for temporary fluctuations in the EEG signal. The study focuses on the impact of methods of feature scaling on the efficiency of EEG spectral-based person verification using artificial neural networks. For our research, we used signals collected from 29 individuals, with 20 recording sessions, each performed on different days. Having such a database, the influence of a number of training sessions on the verification results was also investigated. We tested various methods for scaling estimates of power spectral density coefficients, including power normalization, 5-95 percentile normalization, interquartile range normalization, and raw PSD estimate coefficients converted to the decibel scale. The best results were obtained after converting them to the decibel scale, which resulted in the accuracy of EEG-based people verification equals to 96.6 %.
DOI:10.23919/SPSympo57300.2023.10302695