Artificial Intelligence and Occupational Health and Safety, Benefits and Drawbacks

被引:0
作者
El-Helaly, Mohamed [1 ,2 ]
机构
[1] Mansoura Univ, Fac Med, Occupat & Environm Med, Mansoura, Egypt
[2] New Mansoura Univ, Fac Med, New Mansoura City, Egypt
来源
MEDICINA DEL LAVORO | 2024年 / 115卷 / 02期
关键词
Artificial Intelligence; Occupational Health; Safety; Mental Health; Hazard; Wearable Devices; WORKING; IMPACT;
D O I
暂无
中图分类号
R1 [预防医学、卫生学];
学科分类号
1004 ; 120402 ;
摘要
This paper discusses the impact of artificial intelligence (AI) on occupational health and safety. Although the integration of AI into the field of occupational health and safety is still in its early stages, it has numerous applications in the workplace. Some of these applications offer numerous benefits for the health and safety of workers, such as continuous monitoring of workers' health and safety and the workplace environment through wearable devices and sensors. However, AI might have negative impacts in the workplace, such as ethical worries and data privacy concerns. To maximize the benefits and minimize the drawbacks of AI in the workplace, certain measures should be applied, such as training for both employers and employees and setting policies and guidelines regulating the integration of AI in the workplace.
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页数:8
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[1]   The Effectiveness of Wearable Devices Using Artificial Intelligence for Blood Glucose Level Forecasting or Prediction: Systematic Review [J].
Ahmed, Arfan ;
Aziz, Sarah ;
Abd-alrazaq, Alaa ;
Farooq, Faisal ;
Househ, Mowafa ;
Sheikh, Javaid .
JOURNAL OF MEDICAL INTERNET RESEARCH, 2023, 25
[2]   Overview of Artificial Intelligence-Driven Wearable Devices for Diabetes: Scoping Review [J].
Ahmed, Arfan ;
Aziz, Sarah ;
Abd-Alrazaq, Alaa ;
Farooq, Faisal ;
Sheikh, Javaid .
JOURNAL OF MEDICAL INTERNET RESEARCH, 2022, 24 (08)
[3]   Effects of an Artificial Intelligence-Assisted Health Program on Workers With Neck/Shoulder Pain/Stiffness and Low Back Pain: Randomized Controlled Trial [J].
Anan, Tomomi ;
Kajiki, Shigeyuki ;
Oka, Hiroyuki ;
Fujii, Tomoko ;
Kawamata, Kayo ;
Mori, Koji ;
Matsudaira, Ko .
JMIR MHEALTH AND UHEALTH, 2021, 9 (09)
[4]   Long-term sickness absence from combined factors related to physical work demands: prospective cohort study [J].
Andersen, Lars L. ;
Thorsen, Sannie V. ;
Flyvholm, Mari-Ann ;
Holtermann, Andreas .
EUROPEAN JOURNAL OF PUBLIC HEALTH, 2018, 28 (05) :824-829
[5]   Occupational health and safety in mining: Predictive probabilities of Personal Protective Equipment (PPE) use among artisanal goldminers in Ghana [J].
Aram, Simon Appah ;
Saalidong, Benjamin M. ;
Appiah, Augustine ;
Utip, Idongesit Bassey .
PLOS ONE, 2021, 16 (09)
[6]   Advances in Electronic Phenotyping: From Rule-Based Definitions to Machine Learning Models [J].
Banda, Juan M. ;
Seneviratne, Martin ;
Hernandez-Boussard, Tina ;
Shah, Nigam H. .
ANNUAL REVIEW OF BIOMEDICAL DATA SCIENCE, VOL 1, 2018, 1 :53-68
[7]   Machine-learning approaches to substance-abuse research: emerging trends and their implications [J].
Barenholtz, Elan ;
Fitzgerald, Nicole D. ;
Hahn, William Edward .
CURRENT OPINION IN PSYCHIATRY, 2020, 33 (04) :334-342
[8]   Impact of shift working on the potential for self-powering via kinetic energy harvesting in wearable devices [J].
Beach, Christopher ;
Casson, Alexander J. .
2021 43RD ANNUAL INTERNATIONAL CONFERENCE OF THE IEEE ENGINEERING IN MEDICINE & BIOLOGY SOCIETY (EMBC), 2021, :7003-7006
[9]   w-HAR: An Activity Recognition Dataset and Framework Using Low-Power Wearable Devices [J].
Bhat, Ganapati ;
Tran, Nicholas ;
Shill, Holly ;
Ogras, Umit Y. .
SENSORS, 2020, 20 (18) :1-26
[10]   Identifying Type II workplace violence from clinical notes using natural language processing [J].
Byon, Ha Do ;
Harris, Catherine ;
Crandall, Mary ;
Song, Jiyoun ;
Topaz, Maxim .
WORKPLACE HEALTH & SAFETY, 2023, 71 (10) :484-490
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