HIGH ACCURACY EEG BIOMETRICS IDENTIFICATION USING ICA AND AR MODEL

• Published in: Journal of ICT Vol. 16; no. 2; p. 354
• Main Authors: Kaewwit, Chesada, Lursinsap, Chidchanok, Sophatsathit, Peraphon
• Format: Journal Article
• Language: English
• Published: Kedah Darul Aman Universiti Utara Malaysia 01.12.2017; UUM Press
• Subjects: Accuracy; Autoregressive (AR); Autoregressive models; Autoregressive processes; Biometric identification; Biometrics; Classification; electroencephalogram (EEG); Electroencephalography; Feature extraction; Human-computer interface; Identification methods; Independent component analysis; Independent Component Analysis (ICA); person classification; Signal processing
• ISSN: 1675-414X; 2180-3862
• DOI: 10.32890/jict2017.16.2.8

Modern biometric identification methods combine interdisciplinary approaches to enhance person identification and classification accuracy. One popular technique for this purpose is Brain-Computer Interface (BCI). The signal so obtained from BCI will be further processed by the Autoregressive (AR) Model for feature extraction. Many researches in the area find that for more accurate results, the signal must be cleaned before extracting any useful feature information. This study proposes Independent Component Analysis (ICA), k-NN classifier, and AR as the combined techniques for electroencephalogram (EEG) biometrics to achieve the highest personal identification and classification accuracy. However, there is a classification gap between using the combined ICA with the AR model and AR model alone. Therefore, this study takes one step further by modifying the feature extraction of AR and comparing the outcome with the proposed approaches in lieu of prior researches. The experiment based on four relevant locations shows that the combined ICA and AR can achieve higher accuracy than the modified AR. More combinations of channels and subjects are required in future research to explore the significance of channel effects and to enhance the identification accuracy.