Classification of high‐dimensional electroencephalography data with location selection using structured spike‐and‐slab prior

• Published in: Statistical analysis and data mining Vol. 13; no. 5; pp. 465 - 481
• Main Authors: Mohammed, Shariq, Dey, Dipak K., Zhang, Yuping
• Format: Journal Article
• Language: English
• Published: Hoboken Wiley Subscription Services, Inc., A Wiley Company 01.10.2020; Wiley Subscription Services, Inc
• Subjects: Bayesian analysis; Bayesian variable selection; Classification; Electroencephalography; Gibbs sampling; neuroimaging data; slice sampling; spatial clustering; spatio‐temporal EEG; Spikes
• ISSN: 1932-1864; 1932-1872
• DOI: 10.1002/sam.11477

With the advent of modern technologies, it is increasingly common to deal with data of large dimensions in various scientific fields of study. In this paper, we develop a Bayesian approach for the classification of multi‐subject high‐dimensional electroencephalography (EEG) data. In this EEG data, we have a matrix of covariates corresponding to each subject from either the alcoholic or control group. The matrix covariates have a natural spatial correlation based on the locations of the brain, and temporal correlation as the measurements are taken over time. We employ a divide and conquer strategy by building multiple local Bayesian models at each time point separately. We incorporate the spatial structure through the structured spike‐and‐slab prior, which has inherent variable selection properties. The temporal structure is incorporated within the prior by learning from the local model from the previous time point. We pool the information from the local models and use a weighted average to design a prediction method. We perform simulation studies to show the efficiency of our approach and demonstrate the local Bayesian modeling with a case study on EEG data.