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Temporal impact on cognitive distraction detection for car drivers using EEG

Temporal impact on cognitive distraction detection for car drivers using EEG
Temporal impact on cognitive distraction detection for car drivers using EEG
Electroencephalography (EEG) has the potential to measure a person’s cognitive state, however, we still only have limited knowledge about how well-suited EEG is for recognising cognitive distraction while driving. In this paper, we present DeCiDED, a system that uses EEG in combination with machine learning to detect cognitive distraction in car drivers. Through DeCiDED, we investigate the temporal impact, of the time between the collection of training and evaluation data, and the detection accuracy for cognitive distraction. Our results indicate, that DeCiDED can recognise cognitive distraction with high accuracy when training and evaluation data are originating from the same driving session. Further, we identify a temporal impact, resulting in reduced classification accuracy, of an increased time-span between different drives on the detection accuracy. Finally, we discuss our findings on cognitive attention recognition using EEG how to complement it to categorise different types of distractions.
594 - 601
Schneiders, Eike
9da80af0-1e27-4454-90e2-eb1abf7108bd
Kristensen, Mikkel Rytter Bjerregaard
be47e093-bf73-42e8-9369-4a59f04e3f71
Svangren, Michael Kvist
a470fe93-37e2-4fa4-9b61-5d70b4f8ee14
Skov, Mikael Brasholt
f5477bc6-8447-4176-b69e-99f05450b6cd
Schneiders, Eike
9da80af0-1e27-4454-90e2-eb1abf7108bd
Kristensen, Mikkel Rytter Bjerregaard
be47e093-bf73-42e8-9369-4a59f04e3f71
Svangren, Michael Kvist
a470fe93-37e2-4fa4-9b61-5d70b4f8ee14
Skov, Mikael Brasholt
f5477bc6-8447-4176-b69e-99f05450b6cd

Schneiders, Eike, Kristensen, Mikkel Rytter Bjerregaard, Svangren, Michael Kvist and Skov, Mikael Brasholt (2021) Temporal impact on cognitive distraction detection for car drivers using EEG. In Australian Conference on Human-Computer Interaction. 594 - 601 . (doi:10.1145/3441000.3441013).

Record type: Conference or Workshop Item (Paper)

Abstract

Electroencephalography (EEG) has the potential to measure a person’s cognitive state, however, we still only have limited knowledge about how well-suited EEG is for recognising cognitive distraction while driving. In this paper, we present DeCiDED, a system that uses EEG in combination with machine learning to detect cognitive distraction in car drivers. Through DeCiDED, we investigate the temporal impact, of the time between the collection of training and evaluation data, and the detection accuracy for cognitive distraction. Our results indicate, that DeCiDED can recognise cognitive distraction with high accuracy when training and evaluation data are originating from the same driving session. Further, we identify a temporal impact, resulting in reduced classification accuracy, of an increased time-span between different drives on the detection accuracy. Finally, we discuss our findings on cognitive attention recognition using EEG how to complement it to categorise different types of distractions.

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More information

e-pub ahead of print date: 2 December 2020
Published date: 15 February 2021
Related URLs:
Learn more about School of Electronics and Computer Science research

Identifiers

Local EPrints ID: 494559
URI: http://eprints.soton.ac.uk/id/eprint/494559
DOI: doi:10.1145/3441000.3441013
PURE UUID: 605ebca9-27b9-4cd0-86d9-a9802cc5b916
ORCID for Eike Schneiders: ORCID iD orcid.org/0000-0002-8372-1684

Catalogue record

Date deposited: 10 Oct 2024 16:45
Last modified: 15 Oct 2024 02:12

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Contributors

Author: Eike Schneiders ORCID iD
Author: Mikkel Rytter Bjerregaard Kristensen
Author: Michael Kvist Svangren
Author: Mikael Brasholt Skov

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