Litcius/Paper detail

Outdoor Worker Stress Monitoring Electronics with Nanofabric Radiative Cooler‐Based Thermal Management

Hojoong Kim, Young Jin Yoo, Joo Ho Yun, Se‐Yeon Heo, Young Min Song, Woon‐Hong Yeo

2023Advanced Healthcare Materials32 citationsDOI

Abstract

Severe stress endangers outdoor workers who are in an exceedingly hot workplace. Although recent studies quantify stress levels on the human skin, they still rely on rigid, bulky sensor modules, causing data loss from motion artifacts and limited field-deployability for continuous health monitoring. Moreover, no prior work shows a wearable device that can endure heat exposure while showing continuous monitoring of a subject's stress under realistic working environments. Herein, a soft, field-deployable, wearable bioelectronic system is introduced for detecting outdoor workers' stress levels with negligible motion artifacts and controllable thermal management. A nanofabric radiative cooler (NFRC) and miniaturized sensors with a nanomembrane soft electronic platform are integrated to measure stable electrodermal activities and temperature in hot outdoor conditions. The NFRC exhibits outstanding cooling performance in sub-ambient air with high solar reflectivity and high thermal emissivity. The integrated wearable device with all embedded electronic components and the NFRC shows a lower temperature (41.1%) in sub-ambient air than the NFRC-less device while capturing improved operation time (18.2%). In vivo human study of the bioelectronics with agricultural activities demonstrates the device's capability for portable, continuous, real-time health monitoring of outdoor workers with field deployability.

Topics & Concepts

Wearable computerElectronicsWearable technologyThermal management of electronic devices and systemsContinuous monitoringHeat stressMaterials scienceWork (physics)Physical stressField (mathematics)Stress (linguistics)Human motionEmissivityBioelectronicsEnvironmental scienceComputer scienceNanotechnologyMechanical engineeringMotion (physics)Embedded systemElectrical engineeringOpticsEngineeringMedicineOperations managementLinguisticsArtificial intelligenceBiosensorInternal medicinePhysicsMathematicsGeologyPhilosophyAtmospheric sciencesPure mathematicsThermal Radiation and Cooling TechnologiesUrban Heat Island MitigationBuilding Energy and Comfort Optimization
Outdoor Worker Stress Monitoring Electronics with Nanofabric Radiative Cooler‐Based Thermal Management | Litcius