11
[17] Matthews, G., Desmond, P.A. and Hancock, P.A
(2017), The Handbook of Operator Fatigue, 1st
Edition.
[18] Gonzalez, K., Sasangohar, F., Mehta, R. K.,
Lawley, M. and Erraguntla, M (2017), “Measuring
Fatigue through Heart Rate Variability and Activity
Recognition: A Scoping Literature Review of Machine
Learning Techniques,” in Proceedings of the Human
Factors and Ergonomics Society Annual Meeting 61(1),
pp. 1748–1752.
[19] Marimuthu, J (2015), “Wearable Real Time Health
and Security Monitoring Scheme for Coal Mine
Workers,” Journal of Electrical &Electronic Systems
04(02).
[20] Majumder, S., Mondal, T., and Deen, M (2017),
“Wearable Sensors for Remote Health Monitoring,”
Sensors 17(12), 130.
[21] Dempsey, P., Kocher, L., Nasarwanji, M., Pollard,
J., and Whitson, A (2018), “Emerging Ergonomics
Issues and Opportunities in Mining,” International
Journal of Environmental Research and Public Health
15(11), 2449. doi.org/10.3390/ijerph15112449.
[22] Hazarika, P (2016), “Implementation of smart safety
helmet for coal mine workers,” in Proceedings of the
IEEE 1st International Conference on Power Electronics,
Intelligent Control and Energy Systems (ICPEICES),
pp. 1–3.
[23] Gonzalez, K., Sasangohar, F., Mehta, R. K., Lawley,
M., and Erraguntla, M (2017), “Measuring Fatigue
through Heart Rate Variability and Activity
Recognition: A Scoping Literature Review of Machine
Learning Techniques,” in Proceedings of the Human
Factors and Ergonomics Society Annual Meeting 61(1),
pp. 1748–1752.
[24] Rubenstone, J (2021), “Wearable Sensor Warns
of Heat-Related Illness on Site,” Engineering News
Record. Accessed on April 2, 2023, at www.enr.com
/articles/50929-wearable-biometric-sensor-brings
-better-data-on-heat-related-illness-in-construction.
[25] Stefana, E., Marciano, F., Rossi, D., Cocca, P., and
Tomasoni, G (2021), “Wearable devices for ergonom-
ics: A systematic literature review,” Sensors 21(3), 777.
[26] Polar Electro Oy (2022), Polar Verity Sense user
manual, Accessed on April 3, 2023, at support.polar
.com/e_manuals/verity-sense/polar-verity-sense-user
-manual-english/manual.pdf.
[27] VigiLife SafeGuard (2022), Retrieved from apps
.apple.com/us/app/safeguard-live/id1573635199.
[28] Ruas, A.C., Maia, P. a., ROscani, R. C., Bitencourt,
D.P. and Amorim, F. T (2020), “Heat stress monitor-
ing based on heart rate measurements,” Rev Bras Med
Trab. 18(2): 232–240.
[29] Leveritt, M., Abernethy, P.J, Barry, B. K. and Logan,
P.A. (1999). “Concurrent strength and endurance
training: a review,” Australasian Journal of Educational
Technology 28(7).
[30] Brake, R., Donoghue, M., and Bates, G (2001),
Limiting Metabolic Rate (Thermal Work Limit) as
an Index of Thermal Stress, Curtin University of
Technology, Perth, Australia.
[31] CDC (2023), Heat Stress, Accessed on April 30, 2023,
at www.cdc.gov/niosh/topics/heatstress/.
[32] ISO 7933 (2004), “Ergonomics of the thermal
environment-Analytical determination and inter-
pretation of heat stress using calculation of the pre-
dicted heat strain,” Internationalism Organization for
Standardization, Accessed on April 30, 2023, at www
.iso.org/standard/37600.html
[17] Matthews, G., Desmond, P.A. and Hancock, P.A
(2017), The Handbook of Operator Fatigue, 1st
Edition.
[18] Gonzalez, K., Sasangohar, F., Mehta, R. K.,
Lawley, M. and Erraguntla, M (2017), “Measuring
Fatigue through Heart Rate Variability and Activity
Recognition: A Scoping Literature Review of Machine
Learning Techniques,” in Proceedings of the Human
Factors and Ergonomics Society Annual Meeting 61(1),
pp. 1748–1752.
[19] Marimuthu, J (2015), “Wearable Real Time Health
and Security Monitoring Scheme for Coal Mine
Workers,” Journal of Electrical &Electronic Systems
04(02).
[20] Majumder, S., Mondal, T., and Deen, M (2017),
“Wearable Sensors for Remote Health Monitoring,”
Sensors 17(12), 130.
[21] Dempsey, P., Kocher, L., Nasarwanji, M., Pollard,
J., and Whitson, A (2018), “Emerging Ergonomics
Issues and Opportunities in Mining,” International
Journal of Environmental Research and Public Health
15(11), 2449. doi.org/10.3390/ijerph15112449.
[22] Hazarika, P (2016), “Implementation of smart safety
helmet for coal mine workers,” in Proceedings of the
IEEE 1st International Conference on Power Electronics,
Intelligent Control and Energy Systems (ICPEICES),
pp. 1–3.
[23] Gonzalez, K., Sasangohar, F., Mehta, R. K., Lawley,
M., and Erraguntla, M (2017), “Measuring Fatigue
through Heart Rate Variability and Activity
Recognition: A Scoping Literature Review of Machine
Learning Techniques,” in Proceedings of the Human
Factors and Ergonomics Society Annual Meeting 61(1),
pp. 1748–1752.
[24] Rubenstone, J (2021), “Wearable Sensor Warns
of Heat-Related Illness on Site,” Engineering News
Record. Accessed on April 2, 2023, at www.enr.com
/articles/50929-wearable-biometric-sensor-brings
-better-data-on-heat-related-illness-in-construction.
[25] Stefana, E., Marciano, F., Rossi, D., Cocca, P., and
Tomasoni, G (2021), “Wearable devices for ergonom-
ics: A systematic literature review,” Sensors 21(3), 777.
[26] Polar Electro Oy (2022), Polar Verity Sense user
manual, Accessed on April 3, 2023, at support.polar
.com/e_manuals/verity-sense/polar-verity-sense-user
-manual-english/manual.pdf.
[27] VigiLife SafeGuard (2022), Retrieved from apps
.apple.com/us/app/safeguard-live/id1573635199.
[28] Ruas, A.C., Maia, P. a., ROscani, R. C., Bitencourt,
D.P. and Amorim, F. T (2020), “Heat stress monitor-
ing based on heart rate measurements,” Rev Bras Med
Trab. 18(2): 232–240.
[29] Leveritt, M., Abernethy, P.J, Barry, B. K. and Logan,
P.A. (1999). “Concurrent strength and endurance
training: a review,” Australasian Journal of Educational
Technology 28(7).
[30] Brake, R., Donoghue, M., and Bates, G (2001),
Limiting Metabolic Rate (Thermal Work Limit) as
an Index of Thermal Stress, Curtin University of
Technology, Perth, Australia.
[31] CDC (2023), Heat Stress, Accessed on April 30, 2023,
at www.cdc.gov/niosh/topics/heatstress/.
[32] ISO 7933 (2004), “Ergonomics of the thermal
environment-Analytical determination and inter-
pretation of heat stress using calculation of the pre-
dicted heat strain,” Internationalism Organization for
Standardization, Accessed on April 30, 2023, at www
.iso.org/standard/37600.html