Leveraging knowledge from physiological data: on-body heat stress risk prediction with sensor networks.
Identifieur interne : 002C73 ( Ncbi/Checkpoint ); précédent : 002C72; suivant : 002C74Leveraging knowledge from physiological data: on-body heat stress risk prediction with sensor networks.
Auteurs : Elena Gaura ; John Kemp ; James BruseySource :
- IEEE transactions on biomedical circuits and systems [ 1940-9990 ] ; 2013.
English descriptors
- KwdEn :
- Accelerometry, Adolescent, Adult, Algorithms, Clothing, Decision Support Systems, Clinical (instrumentation), Equipment Design, Firefighters, Heat Stress Disorders (diagnosis), Heat Stress Disorders (prevention & control), Humans, Male, Models, Statistical, Remote Sensing Technology (instrumentation), Remote Sensing Technology (methods), Reproducibility of Results, Skin Temperature (physiology), Young Adult.
- MESH :
- diagnosis : Heat Stress Disorders.
- instrumentation : Decision Support Systems, Clinical, Remote Sensing Technology.
- methods : Remote Sensing Technology.
- physiology : Skin Temperature.
- prevention & control : Heat Stress Disorders.
- Accelerometry, Adolescent, Adult, Algorithms, Clothing, Equipment Design, Firefighters, Humans, Male, Models, Statistical, Reproducibility of Results, Young Adult.
Abstract
The paper demonstrates that wearable sensor systems, coupled with real-time on-body processing and actuation, can enhance safety for wearers of heavy protective equipment who are subjected to harsh thermal environments by reducing risk of Uncompensable Heat Stress (UHS). The work focuses on Explosive Ordnance Disposal operatives and shows that predictions of UHS risk can be performed in real-time with sufficient accuracy for real-world use. Furthermore, it is shown that the required sensory input for such algorithms can be obtained with wearable, non-intrusive sensors. Two algorithms, one based on Bayesian nets and another on decision trees, are presented for determining the heat stress risk, considering the mean skin temperature prediction as a proxy. The algorithms are trained on empirical data and have accuracies of 92.1±2.9% and 94.4±2.1%, respectively when tested using leave-one-subject-out cross-validation. In applications such as Explosive Ordnance Disposal operative monitoring, such prediction algorithms can enable autonomous actuation of cooling systems and haptic alerts to minimize casualties.
DOI: 10.1109/TBCAS.2013.2254485
PubMed: 24473550
Affiliations:
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pubmed:24473550Le document en format XML
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<author><name sortKey="Brusey, James" sort="Brusey, James" uniqKey="Brusey J" first="James" last="Brusey">James Brusey</name>
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<author><name sortKey="Kemp, John" sort="Kemp, John" uniqKey="Kemp J" first="John" last="Kemp">John Kemp</name>
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<series><title level="j">IEEE transactions on biomedical circuits and systems</title>
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<term>Adolescent</term>
<term>Adult</term>
<term>Algorithms</term>
<term>Clothing</term>
<term>Decision Support Systems, Clinical (instrumentation)</term>
<term>Equipment Design</term>
<term>Firefighters</term>
<term>Heat Stress Disorders (diagnosis)</term>
<term>Heat Stress Disorders (prevention & control)</term>
<term>Humans</term>
<term>Male</term>
<term>Models, Statistical</term>
<term>Remote Sensing Technology (instrumentation)</term>
<term>Remote Sensing Technology (methods)</term>
<term>Reproducibility of Results</term>
<term>Skin Temperature (physiology)</term>
<term>Young Adult</term>
</keywords>
<keywords scheme="MESH" qualifier="diagnosis" xml:lang="en"><term>Heat Stress Disorders</term>
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<keywords scheme="MESH" qualifier="instrumentation" xml:lang="en"><term>Decision Support Systems, Clinical</term>
<term>Remote Sensing Technology</term>
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<keywords scheme="MESH" qualifier="methods" xml:lang="en"><term>Remote Sensing Technology</term>
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<keywords scheme="MESH" qualifier="physiology" xml:lang="en"><term>Skin Temperature</term>
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<keywords scheme="MESH" qualifier="prevention & control" xml:lang="en"><term>Heat Stress Disorders</term>
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<term>Adolescent</term>
<term>Adult</term>
<term>Algorithms</term>
<term>Clothing</term>
<term>Equipment Design</term>
<term>Firefighters</term>
<term>Humans</term>
<term>Male</term>
<term>Models, Statistical</term>
<term>Reproducibility of Results</term>
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<front><div type="abstract" xml:lang="en">The paper demonstrates that wearable sensor systems, coupled with real-time on-body processing and actuation, can enhance safety for wearers of heavy protective equipment who are subjected to harsh thermal environments by reducing risk of Uncompensable Heat Stress (UHS). The work focuses on Explosive Ordnance Disposal operatives and shows that predictions of UHS risk can be performed in real-time with sufficient accuracy for real-world use. Furthermore, it is shown that the required sensory input for such algorithms can be obtained with wearable, non-intrusive sensors. Two algorithms, one based on Bayesian nets and another on decision trees, are presented for determining the heat stress risk, considering the mean skin temperature prediction as a proxy. The algorithms are trained on empirical data and have accuracies of 92.1±2.9% and 94.4±2.1%, respectively when tested using leave-one-subject-out cross-validation. In applications such as Explosive Ordnance Disposal operative monitoring, such prediction algorithms can enable autonomous actuation of cooling systems and haptic alerts to minimize casualties.</div>
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<name sortKey="Gaura, Elena" sort="Gaura, Elena" uniqKey="Gaura E" first="Elena" last="Gaura">Elena Gaura</name>
<name sortKey="Kemp, John" sort="Kemp, John" uniqKey="Kemp J" first="John" last="Kemp">John Kemp</name>
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