1
Department of Occupational Health Engineering and Safety at Work, Faculty of Public Health, Kerman University of Medical Sciences, Kerman, Iran
2
Department of Occupational Health and Safety Engineering, Student Research Committee, School of Health, Isfahan University of Medical Sciences, Isfahan, Iran
3
Department of Occupational Health Engineering and Safety at Work, Faculty of Public Health, Urmia University of Medical Sciences, Urmia, Iran
Aim:
This study aimed to assess the impact of heat stressors in various environments across the expansive hot regions of Iran, with the goal of supporting workforce health and well-being.
Methods:
This descriptive-analytical study was conducted in four main stages: (1) identifying and measuring factors influencing the Universal Thermal Climate Index (UTCI), (2) calculating the UTCI as the dependent variable, (3) applying neural network (NN) and Naïve Bayes (NB) algorithms to weigh and model the effective factors on the UTCI, and (4) evaluating the accuracy of each model. Data modeling utilized Python’s scikit-learn package (version 3.7) and the Orange toolkit.
Results:
The average UTCI values in hot-dry and hot-humid regions were 30.49 and 39.48, respectively. In models for hot-dry regions, both algorithms identified dry temperature (Ta) as a significant factor. For hot-humid regions, the NB algorithm identified mean radiant temperature (Tmrt) as the primary factor, while the NN algorithm highlighted dry temperature (Ta). Model accuracy ranged from 74% to 94%, with NN algorithms demonstrating higher accuracy compared to NB algorithms.
Conclusion:
In the models for hot-dry regions, both algorithms predicted Ta and then Tmrt as the principal factors. For hot-humid regions, it was inferred that Tmrt is the main influencing factor on the UTCI.
Zare,S. , Esmaeili,R. and Hemmatjo,R. (2025). Modeling Universal Thermal Climate Index Thermal Stress in Iran’s Hot Zones Using Neural Networks and Naïve Bayes. International Journal of Environmental Health Engineering (IJEHE), 2025(May), 1-8. doi: 10.4103/ijehe.ijehe_21_24
MLA
Zare,S. , , Esmaeili,R. , and Hemmatjo,R. . "Modeling Universal Thermal Climate Index Thermal Stress in Iran’s Hot Zones Using Neural Networks and Naïve Bayes", International Journal of Environmental Health Engineering (IJEHE), 2025, May, 2025, 1-8. doi: 10.4103/ijehe.ijehe_21_24
HARVARD
Zare S., Esmaeili R., Hemmatjo R. (2025). 'Modeling Universal Thermal Climate Index Thermal Stress in Iran’s Hot Zones Using Neural Networks and Naïve Bayes', International Journal of Environmental Health Engineering (IJEHE), 2025(May), pp. 1-8. doi: 10.4103/ijehe.ijehe_21_24
CHICAGO
S. Zare, R. Esmaeili and R. Hemmatjo, "Modeling Universal Thermal Climate Index Thermal Stress in Iran’s Hot Zones Using Neural Networks and Naïve Bayes," International Journal of Environmental Health Engineering (IJEHE), 2025 May (2025): 1-8, doi: 10.4103/ijehe.ijehe_21_24
VANCOUVER
Zare S., Esmaeili R., Hemmatjo R. Modeling Universal Thermal Climate Index Thermal Stress in Iran’s Hot Zones Using Neural Networks and Naïve Bayes. Int. J. Environ. Health Eng., 2025; 2025(May): 1-8. doi: 10.4103/ijehe.ijehe_21_24
International Journal of Environmental Health Engineering (IJEHE)