Abstract
An ongoing interest towards identification based on biosignals, such as electroencephalogram (EEG), magnetic resonance imaging (MRI), is growing in the past decades. Previous studies indicated that the inherent information about brain activity may be used to identify individual during resting-state of eyes open (REO) and eyes closed (REC). Electroencephalographic (EEG) records the data from the scalp, and it is believed that the noisy EEG signals can influence the accuracies of one experiment causing unreliable results. Therefore, the stability and time-robustness of inter-individual features can be investigated for the purpose of individual identification. In this work, we conducted three experiments with the time interval of at least 2 weeks, and used different types of measures (Power Spectral Density, Cross Spectrum, Channel Coherence and Phase Lags) to extract the individual features. The Pearson Correlation Coefficient (PCC) is calculated to measure the level of linear correlation for intra-individual, and Support Vector Machine (SVM) is used to obtain the related classification accuracy. Results show that the classification accuracies of four features were 85–100% for intra-experiment dataset, and were 80–100% for fusion experiments dataset. For inter-experiments classification of REO features, the optimized frequency range is 13–40 Hz for three features, Power Spectral Density, Channel Coherence and Cross Spectrum. For inter-experiments classification of REC, the optimized frequency range is 8–40 Hz for three features, Power Spectral Density, Channel Coherence and Cross Spectrum. The classification results of Phase Lags are much lower than the other three features. These results show the time-robustness of EEG, which can further use for individual identification system.
Highlights
Electroencephalography (EEG), along with the development of neuroscience and computer science, is becoming a new neuroimaging technique that can be used as an alternative method for individual biometric identification (Hema et al, 2008; Chuang et al, 2013)
There are some researches about the EEG-based biometrics system, most of them just focus on the difference between participants in a single experiment, and ignore the stability and timerobustness of inter-experiments data independently (KoikeAkino et al, 2016; Wu et al, 2018; Özdenizci et al, 2019), which is much more important
Perfect classification results for intra-run and fusion-runs features on resting-state of eye open (REO) and REC. (2) For inter-runs features classification of REO, the optimized frequency range is at 13–40 Hz for three features, which are Power Spectral Density (PSD), Cross Spectrum and Channel Coherence
Summary
Electroencephalography (EEG), along with the development of neuroscience and computer science, is becoming a new neuroimaging technique that can be used as an alternative method for individual biometric identification (Hema et al, 2008; Chuang et al, 2013). EEG signals can be quantified by different types of effective measures, such as event-related potentials (ERPs), spectra, functional connectivity as well as other parameters These time-frequency domain measures can evaluate the inter-individual variability of brain activity. Power spectrum of each single electrode can represent the brain oscillation in terms of physiological and cognitive functions (Ramaswamy and Mandic, 2007; Di et al, 2019), and it constitutes inherent information of each region through each channel in different frequency bands (Nakamura et al, 2017) Functional connectivity is another method which captures linear or nonlinear statistical dependencies between distinct channels
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