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Predicting variations of perceptual performance across individuals from neural activity using pattern classifiers
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Predicting variations of perceptual performance across individuals from neural activity using pattern classifiers
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Journal Article
Predicting variations of perceptual performance across individuals from neural activity using pattern classifiers
2010
Overview
Within the past decade computational approaches adopted from the field of machine learning have provided neuroscientists with powerful new tools for analyzing neural data. For instance, previous studies have applied pattern classification algorithms to electroencephalography data to predict the category of presented visual stimuli, human observer decision choices and task difficulty. Here, we quantitatively compare the ability of pattern classifiers and three ERP metrics (peak amplitude, mean amplitude, and onset latency of the face-selective N170) to predict variations across individuals' behavioral performance in a difficult perceptual task identifying images of faces and cars embedded in noise. We investigate three different pattern classifiers (Classwise Principal Component Analysis, CPCA; Linear Discriminant Analysis, LDA; and Support Vector Machine, SVM), five training methods differing in the selection of training data sets and three analyses procedures for the ERP measures. We show that all three pattern classifier algorithms surpass traditional ERP measurements in their ability to predict individual differences in performance. Although the differences across pattern classifiers were not large, the CPCA method with training data sets restricted to EEG activity for trials in which observers expressed high confidence about their decisions performed the highest at predicting perceptual performance of observers. We also show that the neural activity predicting the performance across individuals was distributed through time starting at 120ms, and unlike the face-selective ERP response, sustained for more than 400ms after stimulus presentation, indicating that both early and late components contain information correlated with observers' behavioral performance. Together, our results further demonstrate the potential of pattern classifiers compared to more traditional ERP techniques as an analysis tool for modeling spatiotemporal dynamics of the human brain and relating neural activity to behavior.
Publisher
Elsevier Inc,Elsevier Limited
Subject
/ Adult
/ Behavior
/ Brain
/ Data Interpretation, Statistical
/ Electroencephalography - statistics & numerical data
/ Evoked Potentials - physiology
/ Face
/ Female
/ Humans
/ Male
/ Neural correlates of human behavior
/ Noise
/ Principal Component Analysis
/ Psychomotor Performance - physiology
/ Studies
