| Literature DB >> 32832933 |
Varun Mishra1, Gunnar Pope1, Sarah Lord1, Stephanie Lewia2, Byron Lowens3, Kelly Caine3, Sougata Sen1, Ryan Halter1, David Kotz1.
Abstract
Timely detection of an individual's stress level has the potential to improve stress management, thereby reducing the risk of adverse health consequences that may arise due to mismanagement of stress. Recent advances in wearable sensing have resulted in multiple approaches to detect and monitor stress with varying levels of accuracy. The most accurate methods, however, rely on clinical-grade sensors to measure physiological signals; they are often bulky, custom made, and expensive, hence limiting their adoption by researchers and the general public. In this article, we explore the viability of commercially available off-the-shelf sensors for stress monitoring. The idea is to be able to use cheap, nonclinical sensors to capture physiological signals and make inferences about the wearer's stress level based on that data. We describe a system involving a popular off-the-shelf heart rate monitor, the Polar H7; we evaluated our system with 26 participants in both a controlled lab setting with three well-validated stress-inducing stimuli and in free-living field conditions. Our analysis shows that using the off-the-shelf sensor alone, we were able to detect stressful events with an F1-score of up to 0.87 in the lab and 0.66 in the field, on par with clinical-grade sensors.Entities:
Keywords: Applied computing; Health care information systems; Health informatics; Human-centered computing; Stress detection; Ubiquitous and mobile computing; commodity wearables; mental health; mobile health (mHealth)
Year: 2020 PMID: 32832933 PMCID: PMC7442214 DOI: 10.1145/3361562
Source DB: PubMed Journal: ACM Trans Comput Healthc ISSN: 2637-8051