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Towards a wearable sensor system for continuous occupational cold stress assessment

Abstract

This study investigated the usefulness of continuous sensor data for improving occupational cold stress assessment. Eleven volunteer male subjects completed a 90–120-min protocol in cold environments, consisting of rest, moderate and hard work. Biomedical data were measured using a smart jacket with integrated temperature, humidity and activity sensors, in addition to a custom-made sensor belt worn around the chest. Other relevant sensor data were measured using commercially available sensors. The study aimed to improve decision support for workers in cold climates, by taking advantage of the information provided by data from the rapidly growing market of wearable sensors. Important findings were that the subjective thermal sensation did not correspond to the measured absolute skin temperature and that large differences were observed in both metabolic energy production and skin temperatures under identical exposure conditions. Temperature, humidity, activity and heart rate were found to be relevant parameters for cold stress assessment, and the locations of the sensors in the prototype jacket were adequate. The study reveals the need for cold stress assessment and indicates that a generalised approached is not sufficient to assess the stress on an individual level
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Category

Academic article

Client

  • Research Council of Norway (RCN) / 251907

Language

English

Author(s)

  • Hanne Opsahl Austad
  • Øystein Wiggen
  • Hilde Færevik
  • Trine Margrethe Seeberg

Affiliation

  • SINTEF Digital / Smart Sensors and Microsystems
  • SINTEF Digital / Health Research

Year

2018

Published in

Industrial Health

ISSN

0019-8366

Volume

56

Issue

3

Page(s)

228 - 240

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