Longitudinal estimation of stress-related states through bio-sensor data

IF 12.3 Q1 COMPUTER SCIENCE, INFORMATION SYSTEMS Applied Computing and Informatics Pub Date : 2021-10-07 DOI:10.1108/aci-03-2021-0070
V. Mozgovoy
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Abstract

PurposeThe authors aim to develop a conceptual framework for longitudinal estimation of stress-related states in the wild (IW), based on the machine learning (ML) algorithms that use physiological and non-physiological bio-sensor data.Design/methodology/approachThe authors propose a conceptual framework for longitudinal estimation of stress-related states consisting of four blocks: (1) identification; (2) validation; (3) measurement and (4) visualization. The authors implement each step of the proposed conceptual framework, using the example of Gaussian mixture model (GMM) and K-means algorithm. These ML algorithms are trained on the data of 18 workers from the public administration sector who wore biometric devices for about two months.FindingsThe authors confirm the convergent validity of a proposed conceptual framework IW. Empirical data analysis suggests that two-cluster models achieve five-fold cross-validation accuracy exceeding 70% in identifying stress. Coefficient of accuracy decreases for three-cluster models achieving around 45%. The authors conclude that identification models may serve to derive longitudinal stress-related measures.Research limitations/implicationsProposed conceptual framework may guide researchers in creating validated stress-related indicators. At the same time, physiological sensing of stress through identification models is limited because of subject-specific reactions to stressors.Practical implicationsLongitudinal indicators on stress allow estimation of long-term impact coming from external environment on stress-related states. Such stress-related indicators can become an integral part of mobile/web/computer applications supporting stress management programs.Social implicationsTimely identification of excessive stress may improve individual well-being and prevent development stress-related diseases.Originality/valueThe study develops a novel conceptual framework for longitudinal estimation of stress-related states using physiological and non-physiological bio-sensor data, given that scientific knowledge on validated longitudinal indicators of stress is in emergent state.
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通过生物传感器数据纵向估计应力相关状态
目的作者旨在基于使用生理和非生理生物传感器数据的机器学习算法,开发一个用于野外应激相关状态纵向估计的概念框架。设计/方法/方法作者提出了一个纵向估计应力相关状态的概念框架,由四个部分组成:(1)识别;(2) 验证;(3) 测量和(4)可视化。作者以高斯混合模型(GMM)和K-means算法为例,实现了所提出的概念框架的每一步。这些ML算法是根据公共行政部门18名佩戴生物识别设备约两个月的工作人员的数据进行训练的。作者证实了所提出的概念框架IW的收敛有效性。实证数据分析表明,两个聚类模型在识别压力方面实现了超过70%的五倍交叉验证准确率。三个聚类模型的精度系数降低,达到45%左右。作者得出结论,识别模型可以用来推导与纵向应力相关的测量。研究局限性/含义建议的概念框架可以指导研究人员创建经验证的压力相关指标。同时,由于受试者对压力源的特定反应,通过识别模型对压力的生理感知受到限制。实际含义压力的纵向指标可以估计外部环境对压力相关状态的长期影响。这种与压力相关的指标可以成为支持压力管理程序的移动/网络/计算机应用程序的组成部分。社会影响及时发现过度压力可以改善个人幸福感,预防与发展压力相关的疾病。原创性/价值该研究开发了一个新的概念框架,用于使用生理和非生理生物传感器数据纵向估计压力相关状态,因为关于已验证的压力纵向指标的科学知识处于紧急状态。
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来源期刊
Applied Computing and Informatics
Applied Computing and Informatics Computer Science-Information Systems
CiteScore
12.20
自引率
0.00%
发文量
0
审稿时长
39 weeks
期刊介绍: Applied Computing and Informatics aims to be timely in disseminating leading-edge knowledge to researchers, practitioners and academics whose interest is in the latest developments in applied computing and information systems concepts, strategies, practices, tools and technologies. In particular, the journal encourages research studies that have significant contributions to make to the continuous development and improvement of IT practices in the Kingdom of Saudi Arabia and other countries. By doing so, the journal attempts to bridge the gap between the academic and industrial community, and therefore, welcomes theoretically grounded, methodologically sound research studies that address various IT-related problems and innovations of an applied nature. The journal will serve as a forum for practitioners, researchers, managers and IT policy makers to share their knowledge and experience in the design, development, implementation, management and evaluation of various IT applications. Contributions may deal with, but are not limited to: • Internet and E-Commerce Architecture, Infrastructure, Models, Deployment Strategies and Methodologies. • E-Business and E-Government Adoption. • Mobile Commerce and their Applications. • Applied Telecommunication Networks. • Software Engineering Approaches, Methodologies, Techniques, and Tools. • Applied Data Mining and Warehousing. • Information Strategic Planning and Recourse Management. • Applied Wireless Computing. • Enterprise Resource Planning Systems. • IT Education. • Societal, Cultural, and Ethical Issues of IT. • Policy, Legal and Global Issues of IT. • Enterprise Database Technology.
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