Mental workload during n-back task—quantified in the prefrontal cortex using fNIRS

When interacting with technical systems, users experience mental workload. Particularly in multitasking scenarios (e.g., interacting with the car navigation system while driving) it is desired to not distract the users from their primary task. For such purposes, human-machine interfaces (HCIs) are d...

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Published in	Frontiers in human neuroscience Vol. 7; p. 935
Main Authors	Herff, Christian, Heger, Dominic, Fortmann, Ole, Hennrich, Johannes, Putze, Felix, Schultz, Tanja
Format	Journal Article
Language	English
Published	Switzerland Frontiers Research Foundation 16.01.2014 Frontiers Media S.A
Subjects	Biology Classification Electroencephalography fNIRS Infrared spectroscopy Interfaces International conferences Medical imaging Memory mental states n-back near-infrared spectroscopy Neuroimaging Neuroscience Prefrontal Cortex Spectrum analysis Studies Usability Workload Workloads near-infrared spectroscopy fNIRS prefrontal cortex mental states workload n-back user state monitoring passive BCI
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ISSN	1662-5161 1662-5161
DOI	10.3389/fnhum.2013.00935

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Abstract	When interacting with technical systems, users experience mental workload. Particularly in multitasking scenarios (e.g., interacting with the car navigation system while driving) it is desired to not distract the users from their primary task. For such purposes, human-machine interfaces (HCIs) are desirable which continuously monitor the users' workload and dynamically adapt the behavior of the interface to the measured workload. While memory tasks have been shown to elicit hemodynamic responses in the brain when averaging over multiple trials, a robust single trial classification is a crucial prerequisite for the purpose of dynamically adapting HCIs to the workload of its user. The prefrontal cortex (PFC) plays an important role in the processing of memory and the associated workload. In this study of 10 subjects, we used functional Near-Infrared Spectroscopy (fNIRS), a non-invasive imaging modality, to sample workload activity in the PFC. The results show up to 78% accuracy for single-trial discrimination of three levels of workload from each other. We use an n-back task (n ∈ {1, 2, 3}) to induce different levels of workload, forcing subjects to continuously remember the last one, two, or three of rapidly changing items. Our experimental results show that measuring hemodynamic responses in the PFC with fNIRS, can be used to robustly quantify and classify mental workload. Single trial analysis is still a young field that suffers from a general lack of standards. To increase comparability of fNIRS methods and results, the data corpus for this study is made available online.
AbstractList	When interacting with technical systems, users experience mental workload. Particularly in multitasking scenarios (e.g. interacting with the car navigation system while driving) it is desired to not distract the users from their primary task. For such purposes, human-machine interfaces (HCIs) are desirable which continuously monitor the users' workload and dynamically adapt the behavior of the interface to the measured workload. While memory tasks have been shown to illicit hemodynamic responses in the brain when averaging over multiple trials, a robust single trial classification is a crucial prerequisite for the purpose of dynamically adapting HCIs to the workload of its user.The prefrontal cortex (PFC) plays an important role in the processing of memory and the associated workload. In this study of 10 subjects, we used functional Near-Infrared Spectroscopy (fNIRS), a non-invasive imaging modality, to sample workload activity in the PFC. The results show up to 78% accuracy for single-trial discrimination of three levels of workload from each other. We use an n-back task (n ∈ {1, 2, 3}) to induce different levels of workload, forcing subjects to continuously remember the last one, two or three of rapidly changing items.Our experimental results show that measuring hemodynamic responses in the PFC with fNIRS, can be used to robustly quantify and classify mental workload.Single trial analysis is still a young field that suffers from a general lack of standards. To increase comparability of fNIRS methods and results, the data corpus for this study is made available online. When interacting with technical systems, users experience mental workload. Particularly in multitasking scenarios (e.g., interacting with the car navigation system while driving) it is desired to not distract the users from their primary task. For such purposes, human-machine interfaces (HCIs) are desirable which continuously monitor the users' workload and dynamically adapt the behavior of the interface to the measured workload. While memory tasks have been shown to elicit hemodynamic responses in the brain when averaging over multiple trials, a robust single trial classification is a crucial prerequisite for the purpose of dynamically adapting HCIs to the workload of its user. The prefrontal cortex (PFC) plays an important role in the processing of memory and the associated workload. In this study of 10 subjects, we used functional Near-Infrared Spectroscopy (fNIRS), a non-invasive imaging modality, to sample workload activity in the PFC. The results show up to 78% accuracy for single-trial discrimination of three levels of workload from each other. We use an n-back task (n ∈ {1, 2, 3}) to induce different levels of workload, forcing subjects to continuously remember the last one, two, or three of rapidly changing items. Our experimental results show that measuring hemodynamic responses in the PFC with fNIRS, can be used to robustly quantify and classify mental workload. Single trial analysis is still a young field that suffers from a general lack of standards. To increase comparability of fNIRS methods and results, the data corpus for this study is made available online.When interacting with technical systems, users experience mental workload. Particularly in multitasking scenarios (e.g., interacting with the car navigation system while driving) it is desired to not distract the users from their primary task. For such purposes, human-machine interfaces (HCIs) are desirable which continuously monitor the users' workload and dynamically adapt the behavior of the interface to the measured workload. While memory tasks have been shown to elicit hemodynamic responses in the brain when averaging over multiple trials, a robust single trial classification is a crucial prerequisite for the purpose of dynamically adapting HCIs to the workload of its user. The prefrontal cortex (PFC) plays an important role in the processing of memory and the associated workload. In this study of 10 subjects, we used functional Near-Infrared Spectroscopy (fNIRS), a non-invasive imaging modality, to sample workload activity in the PFC. The results show up to 78% accuracy for single-trial discrimination of three levels of workload from each other. We use an n-back task (n ∈ {1, 2, 3}) to induce different levels of workload, forcing subjects to continuously remember the last one, two, or three of rapidly changing items. Our experimental results show that measuring hemodynamic responses in the PFC with fNIRS, can be used to robustly quantify and classify mental workload. Single trial analysis is still a young field that suffers from a general lack of standards. To increase comparability of fNIRS methods and results, the data corpus for this study is made available online. When interacting with technical systems, users experience mental workload. Particularly in multitasking scenarios (e.g., interacting with the car navigation system while driving) it is desired to not distract the users from their primary task. For such purposes, human-machine interfaces (HCIs) are desirable which continuously monitor the users' workload and dynamically adapt the behavior of the interface to the measured workload. While memory tasks have been shown to elicit hemodynamic responses in the brain when averaging over multiple trials, a robust single trial classification is a crucial prerequisite for the purpose of dynamically adapting HCIs to the workload of its user. The prefrontal cortex (PFC) plays an important role in the processing of memory and the associated workload. In this study of 10 subjects, we used functional Near-Infrared Spectroscopy (fNIRS), a non-invasive imaging modality, to sample workload activity in the PFC. The results show up to 78% accuracy for single-trial discrimination of three levels of workload from each other. We use an n-back task (n ∈ {1, 2, 3}) to induce different levels of workload, forcing subjects to continuously remember the last one, two, or three of rapidly changing items. Our experimental results show that measuring hemodynamic responses in the PFC with fNIRS, can be used to robustly quantify and classify mental workload. Single trial analysis is still a young field that suffers from a general lack of standards. To increase comparability of fNIRS methods and results, the data corpus for this study is made available online. When interacting with technical systems, users experience mental workload. Particularly in multitasking scenarios (e.g., interacting with the car navigation system while driving) it is desired to not distract the users from their primary task. For such purposes, human-machine interfaces (HCIs) are desirable which continuously monitor the users' workload and dynamically adapt the behavior of the interface to the measured workload. While memory tasks have been shown to elicit hemodynamic responses in the brain when averaging over multiple trials, a robust single trial classification is a crucial prerequisite for the purpose of dynamically adapting HCIs to the workload of its user. The prefrontal cortex (PFC) plays an important role in the processing of memory and the associated workload. In this study of 10 subjects, we used functional Near-Infrared Spectroscopy (fNIRS), a non-invasive imaging modality, to sample workload activity in the PFC. The results show up to 78% accuracy for single-trial discrimination of three levels of workload from each other. We use an n -back task ( n ∈ {1, 2, 3}) to induce different levels of workload, forcing subjects to continuously remember the last one, two, or three of rapidly changing items. Our experimental results show that measuring hemodynamic responses in the PFC with fNIRS, can be used to robustly quantify and classify mental workload. Single trial analysis is still a young field that suffers from a general lack of standards. To increase comparability of fNIRS methods and results, the data corpus for this study is made available online.
Author	Heger, Dominic Hennrich, Johannes Fortmann, Ole Schultz, Tanja Herff, Christian Putze, Felix
AuthorAffiliation	Cognitive Systems Lab, Institute for Anthropomatics, Karlsruhe Institute of Technology Karlsruhe, Germany
AuthorAffiliation_xml	– name: Cognitive Systems Lab, Institute for Anthropomatics, Karlsruhe Institute of Technology Karlsruhe, Germany
Author_xml	– sequence: 1 givenname: Christian surname: Herff fullname: Herff, Christian – sequence: 2 givenname: Dominic surname: Heger fullname: Heger, Dominic – sequence: 3 givenname: Ole surname: Fortmann fullname: Fortmann, Ole – sequence: 4 givenname: Johannes surname: Hennrich fullname: Hennrich, Johannes – sequence: 5 givenname: Felix surname: Putze fullname: Putze, Felix – sequence: 6 givenname: Tanja surname: Schultz fullname: Schultz, Tanja
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/24474913$$D View this record in MEDLINE/PubMed
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Copyright	2014. This work is licensed under http://creativecommons.org/licenses/by/3.0/ (the “License”). Notwithstanding the ProQuest Terms and Conditions, you may use this content in accordance with the terms of the License. Copyright © 2014 Herff, Heger, Fortmann, Hennrich, Putze and Schultz. 2014
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Keywords	near-infrared spectroscopy fNIRS prefrontal cortex mental states workload n-back user state monitoring passive BCI
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PublicationDate_xml	– month: 01 year: 2014 text: 2014-01-16 day: 16
PublicationDecade	2010
PublicationPlace	Switzerland
PublicationPlace_xml	– name: Switzerland – name: Lausanne
PublicationTitle	Frontiers in human neuroscience
PublicationTitleAlternate	Front Hum Neurosci
PublicationYear	2014
Publisher	Frontiers Research Foundation Frontiers Media S.A
Publisher_xml	– name: Frontiers Research Foundation – name: Frontiers Media S.A
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References_xml	– reference: 23366240 - Conf Proc IEEE Eng Med Biol Soc. 2012;2012:1715-8 – reference: 24110149 - Conf Proc IEEE Eng Med Biol Soc. 2013;2013:2160-3 – reference: 21096093 - Conf Proc IEEE Eng Med Biol Soc. 2010;2010:5-8 – reference: 12048038 - Clin Neurophysiol. 2002 Jun;113(6):767-91 – reference: 17873424 - J Neural Eng. 2007 Sep;4(3):219-26 – reference: 21835243 - Neuroimage. 2012 Jan 2;59(1):48-56 – reference: 14642462 - Neuroimage. 2003 Nov;20(3):1493-504 – reference: 21436512 - J Neural Eng. 2011 Apr;8(2):025005 – reference: 22832068 - J Neural Eng. 2012 Aug;9(4):045008 – reference: 21722738 - Neuroimage. 2012 Jan 2;59(1):36-47 – reference: 9121583 - Nature. 1997 Apr 10;386(6625):604-8 – reference: 15846822 - Hum Brain Mapp. 2005 May;25(1):46-59 – reference: 19945536 - Neuroimage. 2010 Feb 15;49(4):3039-46 – reference: 23087603 - Front Neurosci. 2012 Oct 11;6:147 – reference: 22255839 - Conf Proc IEEE Eng Med Biol Soc. 2011;2011:6547-51 – reference: 21085607 - PLoS One. 2010 Nov 11;5(11):e15474 – reference: 17547324 - Aviat Space Environ Med. 2007 May;78(5 Suppl):B231-44 – reference: 5146491 - Neuropsychologia. 1971 Mar;9(1):97-113 – reference: 9212720 - Cogn Psychol. 1997 Jun;33(1):5-42 – reference: 17196832 - Neuroimage. 2007 Feb 15;34(4):1416-27 – reference: 20168001 - J Neural Eng. 2010 Apr;7(2):26002 – reference: 22844390 - PLoS One. 2012;7(7):e37791 – reference: 15357206 - Phys Med Biol. 2004 Jul 21;49(14):N255-7
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SubjectTerms	Biology Classification Electroencephalography fNIRS Infrared spectroscopy Interfaces International conferences Medical imaging Memory mental states n-back near-infrared spectroscopy Neuroimaging Neuroscience Prefrontal Cortex Spectrum analysis Studies Usability Workload Workloads
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Title	Mental workload during n-back task—quantified in the prefrontal cortex using fNIRS
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