6
[8] Kelley, C. R. (1969). What is Adaptive Training?
Human Factors, 11(6), 547–556. https://doi.
org/10.1177/001872086901100602.
[9] Kizil, M. S., &Joy, J. (2001). What can virtual reality
do for safety. University of Queensland, St. Lucia QLD.
[10] Li, S., Sari, Y. A., &Kumral, M. (2019). New
approaches to cognitive work analysis through latent
variable modeling in mining operations. International
Journal of Mining Science and Technology, 29(4), 549–
556. DOI: 10.1016/j.ijmst.2019.06.014.
[11] McMlarnon, D. J., &Denby, B. (1996). VR-Mine
-A Virtual Reality Underground Simulation System
(Application to Mine Safety and Training).
[12] MSHA. (2024). Final Rule: Safety Program
for Surface Mobile Equipment. Surface Mobile
Equipment Safety Program Mine Safety and Health
Administration. https://www.msha.gov/sites/default/
files/Regulations/Surface Mobile Equipment Safety
Program.pdf.
[13] Naqvi, S. A. M., Raza, M. A., Ybarra, V. T., Salehi,
S., &Teodoriu, C. (2018). Using Content Analysis
through Simulation-Based Training for Offshore
Drilling Operations: Implications for Process Safety.
Process Safety and Environmental Protection, 121,
290–298.
[14] Naqvi, S. A. M., Raza, M., Ghazal, S., Salehi, S.,
Kang, Z., &Teodoriu, C. (2020). Simulation-based
training to enhance process safety in offshore energy
operations: Process tracing through eye-tracking.
Process Safety and Environmental Protection, 138, 220–
235. https://doi.org/10.1016/J.PSEP.2020.03.016.
[15] Raza, M. A., Kiran, R., Ghazal, S., Kang, Z., Salehi,
S., Cokely, E., &Jeon, J. (2023). An eye tracking
based framework for safety improvement of offshore
operations. Journal of Eye Movement Research, 16(3).
[16] Raza, M. A., Salehi, S., Ghazal, S., Ybarra, V. T.,
Mehdi Naqvi, S. A., Cokely, E. T., &Teodoriu, C.
(2019). Situational awareness measurement in a
simulation-based training framework for offshore
well control operations. Journal of Loss Prevention
in the Process Industries, 62, 103921. https://doi.
org/10.1016/J.JLP.2019.103921.
[17] Simulators Improve Mine Operator Training and Safety.
(2003).
[18] Squelch, A. P. (2001). Virtual Reality For Mine Safety
Training In South Africa.
[19] Strzałkowski, P., Bęś, P., Szóstak, M., &Napiórkowski,
M. (2024). Application of Virtual Reality (VR)
Technology in Mining and Civil Engineering.
Sustainability, 16(6). https://doi.org/10.3390/
su16062239.
[20] TaVoularis, J. H., &Wiehagen, W. J. (1983).
Computer-Based Training Applied To Mining.
[21] Tichon, J., &Burgess-Limerick, R. (2011). A review
of virtual reality as a medium for safety related train-
ing in mining. Journal of Health &Safety Research &
Practice, 3(1), 33–40.
[22] U.S. Department of Labor. (2010, February 2). MSHA
-Rules to Live By. MSHA Fatality Prevention Program
Will Include Outreach, Enforcement. https://www.
dol.gov/newsroom/releases/msha/msha20100202.
[23] Xu, Z., Lu, X. Z., Guan, H., Chen, C., &Ren, A.
Z. (2014). A virtual reality based fire training simula-
tor with smoke hazard assessment capacity. Advances
in Engineering Software, 68, 1–8. DOI: 10.1016/j.
advengsoft.2013.10.004.
[24] Zahabi, M., &Abdul Razak, A. M. (2020). Adaptive
virtual reality-based training: a systematic literature
review and framework. Virtual Reality, 24(4), 725–
752. https://doi.org/10.1007/s10055-020-00434-w.
[8] Kelley, C. R. (1969). What is Adaptive Training?
Human Factors, 11(6), 547–556. https://doi.
org/10.1177/001872086901100602.
[9] Kizil, M. S., &Joy, J. (2001). What can virtual reality
do for safety. University of Queensland, St. Lucia QLD.
[10] Li, S., Sari, Y. A., &Kumral, M. (2019). New
approaches to cognitive work analysis through latent
variable modeling in mining operations. International
Journal of Mining Science and Technology, 29(4), 549–
556. DOI: 10.1016/j.ijmst.2019.06.014.
[11] McMlarnon, D. J., &Denby, B. (1996). VR-Mine
-A Virtual Reality Underground Simulation System
(Application to Mine Safety and Training).
[12] MSHA. (2024). Final Rule: Safety Program
for Surface Mobile Equipment. Surface Mobile
Equipment Safety Program Mine Safety and Health
Administration. https://www.msha.gov/sites/default/
files/Regulations/Surface Mobile Equipment Safety
Program.pdf.
[13] Naqvi, S. A. M., Raza, M. A., Ybarra, V. T., Salehi,
S., &Teodoriu, C. (2018). Using Content Analysis
through Simulation-Based Training for Offshore
Drilling Operations: Implications for Process Safety.
Process Safety and Environmental Protection, 121,
290–298.
[14] Naqvi, S. A. M., Raza, M., Ghazal, S., Salehi, S.,
Kang, Z., &Teodoriu, C. (2020). Simulation-based
training to enhance process safety in offshore energy
operations: Process tracing through eye-tracking.
Process Safety and Environmental Protection, 138, 220–
235. https://doi.org/10.1016/J.PSEP.2020.03.016.
[15] Raza, M. A., Kiran, R., Ghazal, S., Kang, Z., Salehi,
S., Cokely, E., &Jeon, J. (2023). An eye tracking
based framework for safety improvement of offshore
operations. Journal of Eye Movement Research, 16(3).
[16] Raza, M. A., Salehi, S., Ghazal, S., Ybarra, V. T.,
Mehdi Naqvi, S. A., Cokely, E. T., &Teodoriu, C.
(2019). Situational awareness measurement in a
simulation-based training framework for offshore
well control operations. Journal of Loss Prevention
in the Process Industries, 62, 103921. https://doi.
org/10.1016/J.JLP.2019.103921.
[17] Simulators Improve Mine Operator Training and Safety.
(2003).
[18] Squelch, A. P. (2001). Virtual Reality For Mine Safety
Training In South Africa.
[19] Strzałkowski, P., Bęś, P., Szóstak, M., &Napiórkowski,
M. (2024). Application of Virtual Reality (VR)
Technology in Mining and Civil Engineering.
Sustainability, 16(6). https://doi.org/10.3390/
su16062239.
[20] TaVoularis, J. H., &Wiehagen, W. J. (1983).
Computer-Based Training Applied To Mining.
[21] Tichon, J., &Burgess-Limerick, R. (2011). A review
of virtual reality as a medium for safety related train-
ing in mining. Journal of Health &Safety Research &
Practice, 3(1), 33–40.
[22] U.S. Department of Labor. (2010, February 2). MSHA
-Rules to Live By. MSHA Fatality Prevention Program
Will Include Outreach, Enforcement. https://www.
dol.gov/newsroom/releases/msha/msha20100202.
[23] Xu, Z., Lu, X. Z., Guan, H., Chen, C., &Ren, A.
Z. (2014). A virtual reality based fire training simula-
tor with smoke hazard assessment capacity. Advances
in Engineering Software, 68, 1–8. DOI: 10.1016/j.
advengsoft.2013.10.004.
[24] Zahabi, M., &Abdul Razak, A. M. (2020). Adaptive
virtual reality-based training: a systematic literature
review and framework. Virtual Reality, 24(4), 725–
752. https://doi.org/10.1007/s10055-020-00434-w.