Evolution of Fatigue Research in the Aviation Sector: A Bibliometric Study

Seda Çeken

doi:10.30518/jav.1675837

Araştırma Makalesi

Yıl 2025, Cilt: 9 Sayı: 2, 399 - 407, 28.06.2025

Seda Çeken

https://doi.org/10.30518/jav.1675837

Öz

Kaynakça

Aria, M., & Cuccurullo, C. (2017). Bibliometrix: An R-tool for comprehensive science mapping analysis. Journal of informetrics, 11(4), 959-975.
Basner, M., Rao, H., Goel, N., & Dinges, D. F. (2013). Sleep deprivation and neurobehavioral dynamics. Current opinion in neurobiology, 23(5), 854-863.
Bendak, S., & Rashid, H. S. (2020). Fatigue in aviation: A systematic review of the literature. International Journal of Industrial Ergonomics, 76, 102928.
Bourgeois-Bougrine, S. (2020). The illusion of aircrews' fatigue risk control. Transportation research interdisciplinary perspectives, 4, 100104.
Broadus, R. (1987). Toward a definition of “bibliometrics”. Scientometrics, 12(5-6), 373-379.
Caldwell Jr, J. A., Caldwell, J. L., Brown, D. L., & Smith, J. K. (2004). The effects of 37 hours of continuous wakefulness on the physiological arousal, cognitive performance, self-reported mood, and simulator flight performance of F-117A pilots. Military Psychology, 16(3), 163-181.
Caldwell, J. A. (2005). Fatigue in aviation. Travel medicine and infectious disease, 3(2), 85-96.
Caldwell, J. A. (2012). Crew schedules, sleep deprivation, and aviation performance. Current Directions in Psychological Science, 21(2), 85-89.
Caldwell, J. A., Mallis, M. M., Caldwell, J. L., Paul, M. A., Miller, J. C., & Neri, D. F. (2009). Fatigue countermeasures in aviation. Aviation, space, and environmental medicine, 80(1), 29-59.
Cobo, M. J., López‐Herrera, A. G., Herrera‐Viedma, E., & Herrera, F. (2011). Science mapping software tools: Review, analysis, and cooperative study among tools. Journal of the American Society for information Science and Technology, 62(7), 1382-1402.
Dai, J., Luo, M., Hu, W., Ma, J., & Wen, Z. (2020). Developing a fatigue questionnaire for Chinese civil aviation pilots. International journal of occupational safety and ergonomics, 26(1), 37-45. 96
Dawson, D. (2012). Fatigue research in 2011: from the bench to practice. Accident Analysis & Prevention, 45, 1-5.
Dawson, D., & McCulloch, K. (2005). Managing fatigue: it's about sleep. Sleep medicine reviews, 9(5), 365-380.
Directorate General of Civil Aviation (2010). Report on Accident to Air India Express Boeing 737-800 Aircraft VT-AXV on 22nd May 2010 at Mangalore. https://skybrary.aero/sites/default/files/bookshelf/1680.pdf (Accessed on 13 Apr 2025).
EASA (2020). Easy Access Rules for Flight Crew Licencing (Part-FCL). https://www.easa.europa.eu/sites/default/files/dfu/Easy_Access_Rules_for_Part-FCL-Aug20.pdf
Gaines, A. R., Morris, M. B., & Gunzelmann, G. (2020). Fatigue-related aviation mishaps. Aerospace medicine and human performance, 91(5), 440-447.
Gander, P. H., Graeber, R. C., Connell, L. J., Gregory, K. B., Miller, D. L., & Rosekind, M. R. (1998a). Flight crew fatigue I: Objectives and methods. Aviation, Space, and Environmental Medicine, 69(9, Sect 2), B1–B7.
Gander PH, Barnes RM, Gregory KB, Graeber RC, Connell LJ, Rosekind MR. (1998b). Flight crew fatigue III: North Sea helicopter air transport operations. Aviat Space Environ Med. Sep;69(9 Suppl): B16-25. PMID: 9749937.
Gander, P. H., Gregory, K. B., Graeber, R. C., Connell, L. J., Miller, D. L., & Rosekind, M. R. (1998c). Flight crew fatigue IV: Overnight cargo operations. Aviation, Space, and Environmental Medicine, 69(9, Sect 2), B26–B36.
Gander, P. H., Gregory, K. B., Graeber, R. C., Connell, L. J., Miller, D. L., & Rosekind, M. R. (1998d). Flight crew fatigue V: Long-haul air transport operations. Aviation, Space, and Environmental Medicine, 69(9, Sect 2), B37–B48.
Gander PH, Rosekind MR, Gregory KB. (1998e). Flight crew fatigue VI: a synthesis. Aviat Space Environ Med. 1998 Sep;69(9 Suppl): B49-60. PMID: 9749940.
Gander, P. H., Gregory, K. B., Graeber, R. C., Connell, L. J., Miller, D. L., & Rosekind, M. R. (1998f). Flight crew fatigue II: Short-haul fixed-wing air transport operations. Aviation, Space, and Environmental Medicine, 69(9, Sect 2), B8–B15.
Gander, P. H., Mulrine, H. M., van den Berg, M. J., Smith, A. A. T., Signal, T. L., Wu, L. J., & Belenky, G. (2014). Pilot fatigue: relationships with departure and arrival times, flight duration, and direction. Aviation, space, and environmental medicine, 85(8), 833-840.
Gander, P. H., Signal, T. L., van den Berg, M. J., Mulrine, H. M., Jay, S. M., & Jim Mangie, C. (2013). In‐flight sleep, pilot fatigue and P sychomotor V igilance T ask performance on ultra‐long range versus long range flights. Journal of sleep research, 22(6), 697-706.
Gander, P., Hartley, L., Powell, D., Cabon, P., Hitchcock, E., Mills, A., & Popkin, S. (2011). Fatigue risk management: Organizational factors at the regulatory and industry/company level. Accident Analysis & Prevention, 43(2), 573-590.
Gander, P., Mangie, J., Phillips, A., Santos-Fernandez, E., & Wu, L. J. (2018). Monitoring the effectiveness of fatigue risk management: A survey of pilots’ concerns. Aerospace Medicine and Human Performance, 89(10), 889-895.
Göker, Z. (2018). Fatigue in the aviation: An overview of the measurements and countermeasures. Journal of Aviation, 2(2), 185-194.
Gomes de Carvalho, L.M., de Souza Borges, S.F., Machado Cardoso Júnior, M. (2021). Fatigue Assessment Methods Applied to Air Traffic Control – A Bibliometric Analysis. In: Black, N.L., Neumann, W.P., Noy, I. (eds) Proceedings of the 21st Congress of the International Ergonomics Association (IEA 2021). Lecture Notes in Networks and Systems, vol 221. Springer, Cham. 8
Goode, J. H. (2003). Are pilots at risk of accidents due to fatigue? Journal of safety research, 34(3), 309-313.
Guo, Y., Ji, M., Yang, Z., Wang, H., & You, X. (2022). Mindfulness and burnout among Chinese civil pilots: mediation through fatigue and proactive coping. Social Behavior and Personality: an international journal, 50(3), 52-64.
Honn, K. A., Satterfield, B. C., McCauley, P., Caldwell, J. L., & Van Dongen, H. P. (2016). Fatiguing effect of multiple take-offs and landings in regional airline operations. Accident Analysis & Prevention, 86, 199-208.
Hu, X., & Lodewijks, G. (2020). Detecting fatigue in car drivers and aircraft pilots by using non-invasive measures: The value of differentiation of sleepiness and mental fatigue. Journal of safety research, 72, 173- 187.
Hu, Y., Shen, H., Pan, H., & Wei, W. (2024). Fatigue Detection of Air Traffic Controllers Through Their Eye Movements. Aerospace, 11(12), 981.
Huang, Z., Tang, W., Tian, Q., Huang, T., & Li, J. (2024). Air traffic controller fatigue detection based on facial and vocal features using long short-term memory. IEEE Access.
International Civil Aviation Organization (ICAO). (2011). Fatigue Risk Management Systems. Implementation Guide for Operators. https://www.icao.int/safety/fatiguemanagement/frms%20tools/frms%20implementation%20guide%20for%2 0operators%20july%202011.pdf. (Accessed on 31 May 2025).
International Civil Aviation Organization (ICAO). (2020). Doc 9966: Manual for the oversight of fatigue management approaches (2nd ed., Version 2, Revised). https://www.icao.int/safety/fatiguemanagement/FRMS%20Tools/9966_unedited_en.pdf (Accessed on 13 Apr 2025).
Libyan Civil Aviation Authority (2017). Libya Civil Aviation Regulations Air Operations. https://caa.gov.ly/en/wp-content/uploads/pdf/LYCARs-Air-Operationss_Amendment%203_March-17.pdf (Accessed on 13 Apr 2025).
Marcus, J. H., & Rosekind, M. R. (2017). Fatigue in transportation: NTSB investigations and safety recommendations. Injury prevention, 23(4), 232-238.
McCauley, M. E., McCauley, P., Riedy, S. M., Banks, S., Ecker, A. J., Kalachev, L. V., ... & Van Dongen, H. P. (2021). Fatigue risk management based on self-reported fatigue: Expanding a biomathematical model of fatigue- related performance deficits to also predict subjective sleepiness. Transportation research part F: traffic psychology and behaviour, 79, 94-106.
Melin, G., & Persson, O. (1996). Studying research collaboration using co-authorships. Scientometrics, 36, 363- 377.
Moral-Muñoz, J. A., Herrera-Viedma, E., Santisteban-Espejo, A., & Cobo, M. J. (2020). Software tools for conducting bibliometric analysis in science: An up-to-date review. Profesional de la Información, 29(1).
Morris, T. L., & Miller, J. C. (1996). Electrooculographic and performance indices of fatigue during simulated flight. Biological psychology, 42(3), 343-360.
Neri, D. F., Oyung, R. L., Colletti, L. M., Mallis, M. M., Tam, P. Y., & Dinges, D. F. (2002). Controlled breaks as a fatigue countermeasure on the flight deck. Aviation, space, and environmental medicine, 73(7), 654-664.
Novak, A., Badanik, B., Brezonakova, A., & Lusiak, T. (2020). Implications of crew rostering on airline operations. Transportation Research Procedia, 44, 2-7.
NTSB (2010). Loss of Control on Approach Colgan Air, Inc. Operating as Continental Connection Flight 3407 Bombardier DHC-8-400, N200WQ Clarence Center, New York. https://www.ntsb.gov/investigations/accidentreports/reports/aar1001.pdf (Accessed on 13 Apr 2025).
NTSB (2017). Reduce Fatigue-Related Accidents. https://www.ntsb.gov/Advocacy/mwl/Documents/2017- 18/2017MWL-FctSht-Fatigue-H.pdf (Accessed on 13 Apr 2025).
Petrilli, R. M., Roach, G. D., Dawson, D., & Lamond, N. (2006). The sleep, subjective fatigue, and sustained attention of commercial airline pilots during an international pattern. Chronobiology international, 23(6), 1357-1362.
Pillai, R. G., Devrakhyani, P., Shetty, S., & Munji, D. (2020). Artificial intelligence for air safety. In Information Systems: 17th European, Mediterranean, and Middle Eastern Conference, EMCIS 2020, Dubai, United Arab Emirates, November 25–26, 2020, Proceedings 17 (pp. 577-594). Springer International Publishing.
Powell, D., Spencer, M. B., Holland, D., Broadbent, E., & Petrie, K. J. (2007). Pilot fatigue in short-haul operations: Effects of number of sectors, duty length, and time of day. Aviation, space, and environmental medicine, 78(7), 698-701.
Qin, H., Zhou, X., Ou, X., Liu, Y., & Xue, C. (2021). Detection of mental fatigue state using heart rate variability and eye metrics during simulated flight. Human Factors and Ergonomics in Manufacturing & Service Industries, 31(6), 637-651.
Rosekind, M. R., Gander, P. H., Gregory, K. B., Smith, R. M., Miller, D. L., Oyung, R., ... & Johnson, J. M. (1996). Managing fatigue in operational settings 2: An integrated approach. Behavioral Medicine, 21(4), 166-170.
Tuncal, A., & Altıntaş, O. A. (2025). Bibliometric Analysis of Human Factor Literature in Aviation. Human Factors in Aviation and Aerospace, 2(1), 15-26.
van den Berg, M. J., Signal, T. L., & Gander, P. H. (2019). Perceived workload is associated with cabin crew fatigue on ultra-long range flights. The International Journal of Aerospace Psychology, 29(3-4), 74-85.
van Eck, N., & Waltman, L. (2010). Software survey: VOSviewer, a computer program for bibliometric mapping. scientometrics, 84(2), 523-538.
Vasudevan, R., Ziatdinov, M., Chen, C., & Kalinin, S. (2016). Analysis of citation networks as a new tool for scientific research. MRS Bulletin, 41, 1009-1016.
Wingelaar-Jagt, Y. Q., Wingelaar, T. T., Riedel, W. J., & Ramaekers, J. G. (2021). Fatigue in aviation: safety risks, preventive strategies and pharmacological interventions. Frontiers in physiology, 12, 712628.
Xie, H., Zhang, Y., Wu, Z., & Lv, T. (2020). A bibliometric analysis on land degradation: Current status, development, and future directions. Land, 9(1), 28.
Yeung, S. S., Reijnierse, E. M., Pham, V. K., Trappenburg, M. C., Lim, W. K., Meskers, C. G., & Maier, A. B. (2019). Sarcopenia and its association with falls and fractures in older adults: a systematic review and meta‐ analysis. Journal of cachexia, sarcopenia and muscle, 10(3), 485-500.
Zupic, I., & Čater, T. (2015). Bibliometric methods in management and organization. Organizational research methods, 18(3), 429-472.

Evolution of Fatigue Research in the Aviation Sector: A Bibliometric Study

Yıl 2025, Cilt: 9 Sayı: 2, 399 - 407, 28.06.2025

Seda Çeken

https://doi.org/10.30518/jav.1675837

Öz

Fatigue is widely recognized as a critical human factor in aviation, influencing flight safety, crew performance, and operational efficiency. This study presents a comprehensive bibliometric analysis of peer-reviewed and open-access publications on aviation-related fatigue between 1995 and May 31, 2025, based on 228 articles indexed in the Web of Science Core Collection. Using VOSviewer software, data were analyzed through performance metrics, co-authorship, and citation networks, bibliographic coupling, and keyword co-occurrence mapping. Findings reveal a significant increase in publication output after 2020, highlighting growing academic and regulatory attention to fatigue risk management, especially in the context of extended flight duties and cognitive performance deterioration. Highly cited publications emphasize the physiological and neurocognitive consequences of fatigue, while the most central authors and clusters point to increasing interdisciplinary collaboration. Keyword co-occurrence mapping revealed prominent conceptual clusters around human fatigue, operational safety, fatigue management strategies, and detection technologies, reflecting the multifaceted nature of fatigue-related research in aviation. The study contributes to a deeper understanding of the structural evolution of fatigue literature in aviation, offering methodological clarity and highlighting key research gaps. These results provide actionable insights for aviation stakeholders seeking evidence-based strategies to manage fatigue and support human-centered safety systems.

Anahtar Kelimeler

Aviation, Fatigue, Human Factors, Aviation Safety, Bibliometric Analysis

Kaynakça

Aria, M., & Cuccurullo, C. (2017). Bibliometrix: An R-tool for comprehensive science mapping analysis. Journal of informetrics, 11(4), 959-975.
Basner, M., Rao, H., Goel, N., & Dinges, D. F. (2013). Sleep deprivation and neurobehavioral dynamics. Current opinion in neurobiology, 23(5), 854-863.
Bendak, S., & Rashid, H. S. (2020). Fatigue in aviation: A systematic review of the literature. International Journal of Industrial Ergonomics, 76, 102928.
Bourgeois-Bougrine, S. (2020). The illusion of aircrews' fatigue risk control. Transportation research interdisciplinary perspectives, 4, 100104.
Broadus, R. (1987). Toward a definition of “bibliometrics”. Scientometrics, 12(5-6), 373-379.
Caldwell Jr, J. A., Caldwell, J. L., Brown, D. L., & Smith, J. K. (2004). The effects of 37 hours of continuous wakefulness on the physiological arousal, cognitive performance, self-reported mood, and simulator flight performance of F-117A pilots. Military Psychology, 16(3), 163-181.
Caldwell, J. A. (2005). Fatigue in aviation. Travel medicine and infectious disease, 3(2), 85-96.
Caldwell, J. A. (2012). Crew schedules, sleep deprivation, and aviation performance. Current Directions in Psychological Science, 21(2), 85-89.
Caldwell, J. A., Mallis, M. M., Caldwell, J. L., Paul, M. A., Miller, J. C., & Neri, D. F. (2009). Fatigue countermeasures in aviation. Aviation, space, and environmental medicine, 80(1), 29-59.
Cobo, M. J., López‐Herrera, A. G., Herrera‐Viedma, E., & Herrera, F. (2011). Science mapping software tools: Review, analysis, and cooperative study among tools. Journal of the American Society for information Science and Technology, 62(7), 1382-1402.
Dai, J., Luo, M., Hu, W., Ma, J., & Wen, Z. (2020). Developing a fatigue questionnaire for Chinese civil aviation pilots. International journal of occupational safety and ergonomics, 26(1), 37-45. 96
Dawson, D. (2012). Fatigue research in 2011: from the bench to practice. Accident Analysis & Prevention, 45, 1-5.
Dawson, D., & McCulloch, K. (2005). Managing fatigue: it's about sleep. Sleep medicine reviews, 9(5), 365-380.
Directorate General of Civil Aviation (2010). Report on Accident to Air India Express Boeing 737-800 Aircraft VT-AXV on 22nd May 2010 at Mangalore. https://skybrary.aero/sites/default/files/bookshelf/1680.pdf (Accessed on 13 Apr 2025).
EASA (2020). Easy Access Rules for Flight Crew Licencing (Part-FCL). https://www.easa.europa.eu/sites/default/files/dfu/Easy_Access_Rules_for_Part-FCL-Aug20.pdf
Gaines, A. R., Morris, M. B., & Gunzelmann, G. (2020). Fatigue-related aviation mishaps. Aerospace medicine and human performance, 91(5), 440-447.
Gander, P. H., Graeber, R. C., Connell, L. J., Gregory, K. B., Miller, D. L., & Rosekind, M. R. (1998a). Flight crew fatigue I: Objectives and methods. Aviation, Space, and Environmental Medicine, 69(9, Sect 2), B1–B7.
Gander PH, Barnes RM, Gregory KB, Graeber RC, Connell LJ, Rosekind MR. (1998b). Flight crew fatigue III: North Sea helicopter air transport operations. Aviat Space Environ Med. Sep;69(9 Suppl): B16-25. PMID: 9749937.
Gander, P. H., Gregory, K. B., Graeber, R. C., Connell, L. J., Miller, D. L., & Rosekind, M. R. (1998c). Flight crew fatigue IV: Overnight cargo operations. Aviation, Space, and Environmental Medicine, 69(9, Sect 2), B26–B36.
Gander, P. H., Gregory, K. B., Graeber, R. C., Connell, L. J., Miller, D. L., & Rosekind, M. R. (1998d). Flight crew fatigue V: Long-haul air transport operations. Aviation, Space, and Environmental Medicine, 69(9, Sect 2), B37–B48.
Gander PH, Rosekind MR, Gregory KB. (1998e). Flight crew fatigue VI: a synthesis. Aviat Space Environ Med. 1998 Sep;69(9 Suppl): B49-60. PMID: 9749940.
Gander, P. H., Gregory, K. B., Graeber, R. C., Connell, L. J., Miller, D. L., & Rosekind, M. R. (1998f). Flight crew fatigue II: Short-haul fixed-wing air transport operations. Aviation, Space, and Environmental Medicine, 69(9, Sect 2), B8–B15.
Gander, P. H., Mulrine, H. M., van den Berg, M. J., Smith, A. A. T., Signal, T. L., Wu, L. J., & Belenky, G. (2014). Pilot fatigue: relationships with departure and arrival times, flight duration, and direction. Aviation, space, and environmental medicine, 85(8), 833-840.
Gander, P. H., Signal, T. L., van den Berg, M. J., Mulrine, H. M., Jay, S. M., & Jim Mangie, C. (2013). In‐flight sleep, pilot fatigue and P sychomotor V igilance T ask performance on ultra‐long range versus long range flights. Journal of sleep research, 22(6), 697-706.
Gander, P., Hartley, L., Powell, D., Cabon, P., Hitchcock, E., Mills, A., & Popkin, S. (2011). Fatigue risk management: Organizational factors at the regulatory and industry/company level. Accident Analysis & Prevention, 43(2), 573-590.
Gander, P., Mangie, J., Phillips, A., Santos-Fernandez, E., & Wu, L. J. (2018). Monitoring the effectiveness of fatigue risk management: A survey of pilots’ concerns. Aerospace Medicine and Human Performance, 89(10), 889-895.
Göker, Z. (2018). Fatigue in the aviation: An overview of the measurements and countermeasures. Journal of Aviation, 2(2), 185-194.
Gomes de Carvalho, L.M., de Souza Borges, S.F., Machado Cardoso Júnior, M. (2021). Fatigue Assessment Methods Applied to Air Traffic Control – A Bibliometric Analysis. In: Black, N.L., Neumann, W.P., Noy, I. (eds) Proceedings of the 21st Congress of the International Ergonomics Association (IEA 2021). Lecture Notes in Networks and Systems, vol 221. Springer, Cham. 8
Goode, J. H. (2003). Are pilots at risk of accidents due to fatigue? Journal of safety research, 34(3), 309-313.
Guo, Y., Ji, M., Yang, Z., Wang, H., & You, X. (2022). Mindfulness and burnout among Chinese civil pilots: mediation through fatigue and proactive coping. Social Behavior and Personality: an international journal, 50(3), 52-64.
Honn, K. A., Satterfield, B. C., McCauley, P., Caldwell, J. L., & Van Dongen, H. P. (2016). Fatiguing effect of multiple take-offs and landings in regional airline operations. Accident Analysis & Prevention, 86, 199-208.
Hu, X., & Lodewijks, G. (2020). Detecting fatigue in car drivers and aircraft pilots by using non-invasive measures: The value of differentiation of sleepiness and mental fatigue. Journal of safety research, 72, 173- 187.
Hu, Y., Shen, H., Pan, H., & Wei, W. (2024). Fatigue Detection of Air Traffic Controllers Through Their Eye Movements. Aerospace, 11(12), 981.
Huang, Z., Tang, W., Tian, Q., Huang, T., & Li, J. (2024). Air traffic controller fatigue detection based on facial and vocal features using long short-term memory. IEEE Access.
International Civil Aviation Organization (ICAO). (2011). Fatigue Risk Management Systems. Implementation Guide for Operators. https://www.icao.int/safety/fatiguemanagement/frms%20tools/frms%20implementation%20guide%20for%2 0operators%20july%202011.pdf. (Accessed on 31 May 2025).
International Civil Aviation Organization (ICAO). (2020). Doc 9966: Manual for the oversight of fatigue management approaches (2nd ed., Version 2, Revised). https://www.icao.int/safety/fatiguemanagement/FRMS%20Tools/9966_unedited_en.pdf (Accessed on 13 Apr 2025).
Libyan Civil Aviation Authority (2017). Libya Civil Aviation Regulations Air Operations. https://caa.gov.ly/en/wp-content/uploads/pdf/LYCARs-Air-Operationss_Amendment%203_March-17.pdf (Accessed on 13 Apr 2025).
Marcus, J. H., & Rosekind, M. R. (2017). Fatigue in transportation: NTSB investigations and safety recommendations. Injury prevention, 23(4), 232-238.
McCauley, M. E., McCauley, P., Riedy, S. M., Banks, S., Ecker, A. J., Kalachev, L. V., ... & Van Dongen, H. P. (2021). Fatigue risk management based on self-reported fatigue: Expanding a biomathematical model of fatigue- related performance deficits to also predict subjective sleepiness. Transportation research part F: traffic psychology and behaviour, 79, 94-106.
Melin, G., & Persson, O. (1996). Studying research collaboration using co-authorships. Scientometrics, 36, 363- 377.
Moral-Muñoz, J. A., Herrera-Viedma, E., Santisteban-Espejo, A., & Cobo, M. J. (2020). Software tools for conducting bibliometric analysis in science: An up-to-date review. Profesional de la Información, 29(1).
Morris, T. L., & Miller, J. C. (1996). Electrooculographic and performance indices of fatigue during simulated flight. Biological psychology, 42(3), 343-360.
Neri, D. F., Oyung, R. L., Colletti, L. M., Mallis, M. M., Tam, P. Y., & Dinges, D. F. (2002). Controlled breaks as a fatigue countermeasure on the flight deck. Aviation, space, and environmental medicine, 73(7), 654-664.
Novak, A., Badanik, B., Brezonakova, A., & Lusiak, T. (2020). Implications of crew rostering on airline operations. Transportation Research Procedia, 44, 2-7.
NTSB (2010). Loss of Control on Approach Colgan Air, Inc. Operating as Continental Connection Flight 3407 Bombardier DHC-8-400, N200WQ Clarence Center, New York. https://www.ntsb.gov/investigations/accidentreports/reports/aar1001.pdf (Accessed on 13 Apr 2025).
NTSB (2017). Reduce Fatigue-Related Accidents. https://www.ntsb.gov/Advocacy/mwl/Documents/2017- 18/2017MWL-FctSht-Fatigue-H.pdf (Accessed on 13 Apr 2025).
Petrilli, R. M., Roach, G. D., Dawson, D., & Lamond, N. (2006). The sleep, subjective fatigue, and sustained attention of commercial airline pilots during an international pattern. Chronobiology international, 23(6), 1357-1362.
Pillai, R. G., Devrakhyani, P., Shetty, S., & Munji, D. (2020). Artificial intelligence for air safety. In Information Systems: 17th European, Mediterranean, and Middle Eastern Conference, EMCIS 2020, Dubai, United Arab Emirates, November 25–26, 2020, Proceedings 17 (pp. 577-594). Springer International Publishing.
Powell, D., Spencer, M. B., Holland, D., Broadbent, E., & Petrie, K. J. (2007). Pilot fatigue in short-haul operations: Effects of number of sectors, duty length, and time of day. Aviation, space, and environmental medicine, 78(7), 698-701.
Qin, H., Zhou, X., Ou, X., Liu, Y., & Xue, C. (2021). Detection of mental fatigue state using heart rate variability and eye metrics during simulated flight. Human Factors and Ergonomics in Manufacturing & Service Industries, 31(6), 637-651.
Rosekind, M. R., Gander, P. H., Gregory, K. B., Smith, R. M., Miller, D. L., Oyung, R., ... & Johnson, J. M. (1996). Managing fatigue in operational settings 2: An integrated approach. Behavioral Medicine, 21(4), 166-170.
Tuncal, A., & Altıntaş, O. A. (2025). Bibliometric Analysis of Human Factor Literature in Aviation. Human Factors in Aviation and Aerospace, 2(1), 15-26.
van den Berg, M. J., Signal, T. L., & Gander, P. H. (2019). Perceived workload is associated with cabin crew fatigue on ultra-long range flights. The International Journal of Aerospace Psychology, 29(3-4), 74-85.
van Eck, N., & Waltman, L. (2010). Software survey: VOSviewer, a computer program for bibliometric mapping. scientometrics, 84(2), 523-538.
Vasudevan, R., Ziatdinov, M., Chen, C., & Kalinin, S. (2016). Analysis of citation networks as a new tool for scientific research. MRS Bulletin, 41, 1009-1016.
Wingelaar-Jagt, Y. Q., Wingelaar, T. T., Riedel, W. J., & Ramaekers, J. G. (2021). Fatigue in aviation: safety risks, preventive strategies and pharmacological interventions. Frontiers in physiology, 12, 712628.
Xie, H., Zhang, Y., Wu, Z., & Lv, T. (2020). A bibliometric analysis on land degradation: Current status, development, and future directions. Land, 9(1), 28.
Yeung, S. S., Reijnierse, E. M., Pham, V. K., Trappenburg, M. C., Lim, W. K., Meskers, C. G., & Maier, A. B. (2019). Sarcopenia and its association with falls and fractures in older adults: a systematic review and meta‐ analysis. Journal of cachexia, sarcopenia and muscle, 10(3), 485-500.
Zupic, I., & Čater, T. (2015). Bibliometric methods in management and organization. Organizational research methods, 18(3), 429-472.

Toplam 59 adet kaynakça vardır.

Ayrıntılar

Birincil Dil	İngilizce
Konular	İşletme , Toplu Taşıma
Bölüm	Araştırma Makaleleri
Yazarlar	Seda Çeken 0000-0002-5870-2246
Yayımlanma Tarihi	28 Haziran 2025
Gönderilme Tarihi	14 Nisan 2025
Kabul Tarihi	11 Haziran 2025
Yayımlandığı Sayı	Yıl 2025 Cilt: 9 Sayı: 2

Kaynak Göster

APA	Çeken, S. (2025). Evolution of Fatigue Research in the Aviation Sector: A Bibliometric Study. Journal of Aviation, 9(2), 399-407. https://doi.org/10.30518/jav.1675837

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