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Predicting individual decision-making responses based on single-trial EEG

journal contribution
posted on 2023-05-20, 08:03 authored by Si, Y, Li, F, Duan, K, Tao, Q, Li, C, Cao, Z, Zhang, Y, Biswal, B, Li, P, Yao, D, Xu, P
Decision-making plays an essential role in the interpersonal interactions and cognitive processing of individuals. There has been increasing interest in being able to predict an individual’s decision-making response (i.e., acceptance or rejection). We proposed an electroencephalogram (EEG)-based computational intelligence framework to predict individual responses. Specifically, the discriminative spatial network pattern (DSNP), a supervised learning approach, was applied to single-trial EEG data to extract the DSNP feature from the single-trial brain network. A linear discriminate analysis (LDA) trained on the DSNP features was then used to predict the individual response trial-by-trial. To verify the performance of the proposed DSNP, we recruited two independent subject groups, and recorded the EEGs using two types of EEG systems. The performances of the trial-by-trial predictors achieved an accuracy of 0.88 ± 0.09 for the first dataset, and 0.90 ± 0.10 for the second dataset. These trial-by-trial prediction performances suggested that individual responses could be predicted trial-by-trial by using the specific pattern of single-trial EEG networks, and our proposed method has the potential to establish the biologically inspired artificial intelligence decision system.

History

Publication title

Neuroimage

Volume

206

Article number

116333

Number

116333

Pagination

1-10

ISSN

1053-8119

Department/School

School of Information and Communication Technology

Publisher

Academic Press Inc Elsevier Science

Place of publication

525 B St, Ste 1900, San Diego, USA, Ca, 92101-4495

Rights statement

Copyright 2019 Published by Elsevier Inc.

Repository Status

  • Restricted

Socio-economic Objectives

Intelligence, surveillance and space

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