Article

Stress Recognition Using Wearable Sensors and Mobile Phones

Authors:

Akane Sano,

Rosalind W. PicardAuthors Info & Claims

ACII '13: Proceedings of the 2013 Humaine Association Conference on Affective Computing and Intelligent Interaction

Pages 671 - 676

https://doi.org/10.1109/ACII.2013.117

Published: 02 September 2013 Publication History

Abstract

In this study, we aim to find physiological or behavioral markers for stress. We collected 5 days of data for 18 participants: a wrist sensor (accelerometer and skin conductance), mobile phone usage (call, short message service, location and screen on/off) and surveys (stress, mood, sleep, tiredness, general health, alcohol or caffeinated beverage intake and electronics usage). We applied correlation analysis to find statistically significant features associated with stress and used machine learning to classify whether the participants were stressed or not. In comparison to a baseline 87.5% accuracy using the surveys, our results showed over 75% accuracy in a binary classification using screen on, mobility, call or activity level information (some showed higher accuracy than the baseline). The correlation analysis showed that the higher-reported stress level was related to activity level, SMS and screen on/off patterns.

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Zhang PJung GAlikhanov JAhmed ULee U(2024)A Reproducible Stress Prediction Pipeline with Mobile Sensor DataProceedings of the ACM on Interactive, Mobile, Wearable and Ubiquitous Technologies10.1145/36785788:3(1-35)Online publication date: 9-Sep-2024
https://dl.acm.org/doi/10.1145/3678578
Akiri SMisal VTaherzadeh SJenkins JWilliams GMentis HKleinsmith A(2024)Enhancing Stress Understanding Through Team Reflection: Technology-Driven Insights in High-Stress Training ScenariosProceedings of the 3rd Annual Meeting of the Symposium on Human-Computer Interaction for Work10.1145/3663384.3663385(1-18)Online publication date: 25-Jun-2024
https://dl.acm.org/doi/10.1145/3663384.3663385
Masood SKhan RAbd El-Latif AAhmad M(2024)An FCN-LSTM model for neurological status detection from non-invasive multivariate sensor dataNeural Computing and Applications10.1007/s00521-022-07117-436:1(77-93)Online publication date: 1-Jan-2024
https://dl.acm.org/doi/10.1007/s00521-022-07117-4
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Published In

ACII '13: Proceedings of the 2013 Humaine Association Conference on Affective Computing and Intelligent Interaction

September 2013

882 pages

ISBN:9780769550480

Publisher

IEEE Computer Society

United States

Publication History

Published: 02 September 2013

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Zhang PJung GAlikhanov JAhmed ULee U(2024)A Reproducible Stress Prediction Pipeline with Mobile Sensor DataProceedings of the ACM on Interactive, Mobile, Wearable and Ubiquitous Technologies10.1145/36785788:3(1-35)Online publication date: 9-Sep-2024
Akiri SMisal VTaherzadeh SJenkins JWilliams GMentis HKleinsmith A(2024)Enhancing Stress Understanding Through Team Reflection: Technology-Driven Insights in High-Stress Training ScenariosProceedings of the 3rd Annual Meeting of the Symposium on Human-Computer Interaction for Work10.1145/3663384.3663385(1-18)Online publication date: 25-Jun-2024
Masood SKhan RAbd El-Latif AAhmad M(2024)An FCN-LSTM model for neurological status detection from non-invasive multivariate sensor dataNeural Computing and Applications10.1007/s00521-022-07117-436:1(77-93)Online publication date: 1-Jan-2024
Samyoun SIslam MIqbal TStankovic J(2022)M3SenseProceedings of the ACM on Interactive, Mobile, Wearable and Ubiquitous Technologies10.1145/35346006:2(1-32)Online publication date: 7-Jul-2022
Kalanadhabhatta MSantana AZhang ZGanesan DGrabell ARahman T(2022)EarlyScreenProceedings of the ACM on Interactive, Mobile, Wearable and Ubiquitous Technologies10.1145/35345836:2(1-39)Online publication date: 7-Jul-2022
Das Swain VChen VMishra SMattingly SAbowd GDe Choudhury M(2022)Semantic Gap in Predicting Mental Wellbeing through Passive SensingProceedings of the 2022 CHI Conference on Human Factors in Computing Systems10.1145/3491102.3502037(1-16)Online publication date: 29-Apr-2022
Yin GSun SYu DLi DZhang K(2022)A Multimodal Framework for Large-Scale Emotion Recognition by Fusing Music and Electrodermal Activity SignalsACM Transactions on Multimedia Computing, Communications, and Applications10.1145/349068618:3(1-23)Online publication date: 4-Mar-2022
Tian LOviatt SMuszynski MChamberlain BHealey JSano A(2022)Applied Affective ComputingundefinedOnline publication date: 25-Jan-2022
Gasparini FGiltri MBandini SLujak MDusparic IKlügl FVizzari G(2021)Safety perception and pedestrian dynamicsAI Communications10.3233/AIC-20157634:1(5-19)Online publication date: 1-Jan-2021
Makowska-Tlomak ENielek RSkorupska KPaluch JKopec W(2021)Evaluating a Sentiment Analysis Tool to Detect Digital Transformation StressIEEE/WIC/ACM International Conference on Web Intelligence and Intelligent Agent Technology10.1145/3486622.3494024(103-111)Online publication date: 14-Dec-2021
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Simple and Complex Activity Recognition through Smart Phones

Physical activity monitoring with mobile phones

Stress Detection by Machine Learning and Wearable Sensors

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