Decision-Level Fusion of EEG and Pupil Features for Single-Trial Visual Detection Analysis

Author

Qian, Ming ; Aguilar, Mario ; Zachery, Karen N. ; Privitera, Claudio ; Klein, Stanley ; Carney, Thom ; Nolte, Loren W.

Author_Institution

Res. Triangle Lab., Teledyne Sci. & Imaging LLC, Durham, NC

Volume

56

Issue

7

fYear

2009

fDate

7/1/2009 12:00:00 AM

Firstpage

1929

Lastpage

1937

Abstract

Several recent studies have reported success in applying EEG-based signal analysis to achieve accurate single-trial classification of responses to visual target detection. Pupil responses are proposed as a complementary modality that can support improved accuracy of single-trial signal analysis. We develop a pupillary response feature-extraction and -selection procedure that helps to improve the classification performance of a system based only on EEG signal analysis. We apply a two-level linear classifier to obtain cognitive-task-related analysis of EEG and pupil responses. The classification results based on the two modalities are then fused at the decision level. Here, the goal is to support increased classification confidence through the inherent modality complementarities. The fusion results show significant improvement over classification performance based on a single modality.

Keywords

cognition; electroencephalography; eye; feature extraction; medical signal detection; medical signal processing; neurophysiology; sensor fusion; signal classification; EEG-based signal analysis; cognitive-task-related analysis; decision-level fusion; electroencephalography; pupillary response feature-extraction; pupillary response selection procedure; single-trial classification; single-trial visual detection analysis; two-level linear classifier; Application software; Electroencephalography; Feature extraction; Humans; Image analysis; Image classification; Linear discriminant analysis; Machine learning; Object detection; Signal analysis; Spatiotemporal phenomena; Brain–machine interface; EEG; decision fusion; image triage; machine learning; pupillary response; rapid serial visual presentation (RSVP); single-trial detection; Algorithms; Artificial Intelligence; Discriminant Analysis; Electroencephalography; Female; Humans; Image Processing, Computer-Assisted; Linear Models; Male; Man-Machine Systems; Pupil; ROC Curve; Signal Processing, Computer-Assisted; Task Performance and Analysis;

fLanguage

English

Journal_Title

Biomedical Engineering, IEEE Transactions on

Publisher

ieee

ISSN

0018-9294

Type

jour

DOI

10.1109/TBME.2009.2016670

Filename

4806061