Cybersecurity Challenges in Aviation: Safeguarding Airline Operations against Emerging Threats

Authors

  • Rukayat Omobolanle Ojo-Oba

DOI:

https://doi.org/10.47941/jts.3000

Keywords:

Cybersecurity, Aviation, Airline Operations

Abstract

Purpose: This research examines the impacts of cyber-security challenges on airline operations and devising ways of mitigating them.   

Methodology: This research adopted an interpretivist approach, enabling consideration of cyber-security from a subjective human meaning, experiences and interpretations. As such, qualitative data was collected through document analysis from Google Scholar, Research Gate, JSTOR, Federal Aviation Administration and EUROCONTROL. 24 peer reviewed articles and journals that were published between 2010 and 2025 were used in analysis through thematic analysis.  

Findings: This research found ransomware attacks, DDos, breach of confidential data, attacks due to of in-flight systems and GPS spoofing to be the most prevalent cyber-security challenges facing airlines. Although airlines have been collaborating with IT vendors and government agencies, there have been numerous instances of uncoordinated response to cybersecurity attacks. This is despite the increased ability of early detection of threats through technological advancements. This research suggests adoption of multidisciplinary response towards cyber-security issues, involving all stakeholders and focusing on addressing both the technical and the social aspects of cybersecurity.

Unique Contribution to Theory, Policy and Practice: This study has advanced the application of the socio-technical systems theory and the CIA triad in aviation cybersecurity. This demonstrated the interplay of social and technical factors in aviation cybersecurity, as well as the value of confidentiality, integrity and availability in integration of technological advancements in aviation infrastructure. The study also identified the rising nature of cybersecurity risk in aviation, raising awareness to airlines’ risk management strategies. Part of the research also contributes towards the development of policies that foster collaborative efforts among stakeholders towards improving cybersecurity in aviation.   

Downloads

Download data is not yet available.

References

Ai cybersecurity: A new approach to AI in Cybersecurity (2025) Darktrace. Available at: https://www.darktrace.com/cyberai#:~:text=Darktrace’s%20Self%2DLearning%20AI%20is,cyber%20risk%20in%20your%20organization. (Accessed: 27 May 2025).

Alrefaei, F., Alzahrani, A., Song, H., Zohdy, M. and Alrefaei, S., 2021, April. Cyber physical systems, a new challenge and security issue for the aviation. In 2021 IEEE International IOT, Electronics and Mechatronics Conference (IEMTRONICS) (pp. 1-5). IEEE.

Amorim, V., Fernandes, A. and Filipe, V., 2025. Analyzing the Impact of the CrowdStrike Tech Outage on Airport Operations and Future Resilience Strategies. Procedia Computer Science, 256, pp.633-640.

Appelbaum, S.H., 1997. Socio‐technical systems theory: an intervention strategy for organizational development. Management decision, 35(6), pp.452-463.

Bergamasco, F., Cassar, R. and Popova, R., 2020. Cybersecurity: key legal considerations for the aviation and space sectors. Kluwer Law International BV.

Black, J. and Rubenov, E. (2025) Why are airlines a prime target for cyberattacks? | Akamai. Available at: https://www.akamai.com/blog/security/why-are-airlines-prime-target-for-cyberattacks (Accessed: 27 May 2025).

British Airways fined £20M over Data Breach (2020) BBC News. Available at: https://www.bbc.com/news/technology-54568784 (Accessed: 27 May 2025).

Cooper, P., Handler, S. and Shahwan, S., 2019. Aviation cybersecurity: Scoping the challenge. Atlantic Council, Scowcroft Center for Strategy and Security.

Dave, G., Choudhary, G., Sihag, V., You, I. and Choo, K.K.R., 2022. Cyber security challenges in aviation communication, navigation, and surveillance. Computers & Security, 112, p.102516.

Duchamp, H., Bayram, I. and Korhani, R., 2016, June. Cyber-Security, a new challenge for the aviation and automotive industries. In Seminar in information systems: applied cybersecurity strategy for managers (pp. 1-4).

Eleimat, M. and Őszi, A., 2025. Cybersecurity in Aviation: Exploring the Significance, Applications, and Challenges of Cybersecurity in the Aviation Sector. Periodica Polytechnica Transportation Engineering.

Elmarady, A.A. and Rahouma, K., 2021. Studying cybersecurity in civil aviation, including developing and applying aviation cybersecurity risk assessment. IEEE access, 9, pp.143997-144016.

Faye, S., Abdulrahman, J., Talb, R.A. and Martin, R.J., 2024. Cybersecurity in Aviation: A Case-Based Approach to Preparedness. Int'l J. Info. Sec. & Cybercrime, 13, p.33.

Fox, S.J., 2016. Flying challenges for the future: Aviation preparedness–in the face of cyber-terrorism. Journal of transportation security, 9, pp.191-218.

Freeman, K., Lewis, T.D. and Ali, H., 2024, August. Aviation Cybersecurity Challenges. In CNS & Security Workshop.

George, A.S., 2024. When trust fails: Examining systemic risk in the digital economy from the 2024 crowdstrike outage. Partners Universal Multidisciplinary Research Journal, 1(2), pp.134-152.

Greig, J. (2023) Boeing says cyber incident affects parts and distribution business, Cyber Security News | The Record. Available at: https://therecord.media/boeing-cyberattack-parts-distribution-business (Accessed: 27 May 2025).

Haass, J., Sampigethaya, R. and Capezzuto, V., 2016. Aviation and cybersecurity: opportunities for applied research. Tr News, (304), p.39.

Houseman, O., Tiwari, A. and Roy, R., 2004. A methodology for the selection of new technologies in the aviation industry.

Jaber, E.M., Haitam, A. and Abderrahim, A., 2024, May. Cybersecurity Challenges in the Global Aviation Network. In International Conference on Connected Objects and Artificial Intelligence (pp. 165-171). Cham: Springer Nature Switzerland.

Jones, T., 2024. Investigating the Opportunities and Limitations of Artificial Intelligence and Cybersecurity in Aviation (Master's thesis, Eastern Michigan University).

Kagalwalla, N. and Churi, P.P., 2019, September. Cybersecurity in aviation: An intrinsic review. In 2019 5th international conference on computing, communication, control and automation (ICCUBEA) (pp. 1-6). IEEE.

Klenka, M., 2021. Aviation cyber security: legal aspects of cyber threats. Journal of transportation security, 14(3), pp.177-195.

Lehto, M., 2020. Cyber security in aviation, maritime and automotive. Computation and Big Data for Transport: Digital Innovations in Surface and Air Transport Systems, pp.19-32.

Lykou, G., Iakovakis, G. and Gritzalis, D., 2019. Aviation cybersecurity and cyber-resilience: assessing risk in air traffic management. Critical Infrastructure Security and Resilience: Theories, Methods, Tools and Technologies, pp.245-260.

Majchrzak, A. and Borys, B., 2001. Generating testable socio-technical systems theory. Journal of Engineering and Technology Management, 18(3-4), pp.219-240.

McManners, P., 2016. The action research case study approach: A methodology for complex challenges such as sustainability in aviation. Action Research, 14(2), pp.201-216.

Melnikovas, A., 2018. Towards an Explicit Research Methodology: Adapting Research Onion Model for Futures Studies. Journal of futures Studies, 23(2).

Moncrieff, S. (2025) What caused the crowdstrike outage: A detailed breakdown, Messageware. Available at: https://www.messageware.com/what-caused-the-crowdstrike-outage-a-detailedbreakdown/#:~:text=On%20July%2019%2C%202024%2C%20CrowdStrike,Screen%20of%20Death%20(BSoD). (Accessed: 26 May 2025).

Official Report: Foreign objects caused Azerbaijan Airlines crash (2025) euronews.

Osazuwa, O.M.C., Mitchell, O. and Osazuwa, C., 2023. Confidentiality; Integrity, and Availability in Network Systems: A Review of Related Literature. International Journal of Innovative Science and Research Technology, 8(12), pp.1946-1953.

Rice, S., Winter, S.R., Doherty, S. and Milner, M., 2017. Advantages and disadvantages of using internet-based survey methods in aviation-related research. Journal of Aviation Technology and Engineering, 7(1), p.5.

Sabillon, R. and Bermejo Higuera, J.R., 2023, July. The importance of cybersecurity awareness training in the aviation industry for early detection of Cyberthreats and vulnerabilities. In International Conference on Human-Computer Interaction (pp. 461-479). Cham: Springer Nature Switzerland.

Samonas, S. and Coss, D., 2014. The CIA strikes back: Redefining confidentiality, integrity and availability in security. Journal of Information System Security, 10(3).

Shah, I.A., Jhanjhi, N.Z. and Brohi, S., 2024. Cybersecurity issues and challenges in civil aviation security. Cybersecurity in the Transportation Industry, pp.1-23.

Simmons, H.O., 2017. Cybersecurity in Aviation: Constant Vigilance Required. J. Air L. & Com., 82, p.771.

Spirent (2025). Available at: https://www.spirent.com/blogs/gps-spoofing-and-egpws-the-risks-for-the-commercial-aviation-industry (Accessed: 27 May 2025).

Stastny, P. and Stoica, A.M., 2022, February. Protecting aviation safety against cybersecurity threats. In IOP Conference Series: Materials Science and Engineering (Vol. 1226, No. 1, p. 012025). IOP Publishing.

Svanadze, V., 2020. Cybersecurity in the civil aviation and existing challenges. Legal Bulletin. Aviation and Space Law. (4), pp.27-33.

Together against threats: Advancing aviation cybersecurity through collective action (2025) Technology Advancement Center. Available at: https://thetac.tech/together-against-threats-advancing-aviation-cybersecurity-through-collective-action/ (Accessed: 27 May 2025).

Ukwandu, E., Ben-Farah, M.A., Hindy, H., Bures, M., Atkinson, R., Tachtatzis, C., Andonovic, I. and Bellekens, X., 2022. Cyber-security challenges in aviation industry: A review of current and future trends. Information, 13(3), p.146.

Wiggins, M.W. and Stevens, C., 2016. Aviation social science: Research methods in practice. Routledge.

Yee, C.K. and Zolkipli, M.F., 2021. Review on confidentiality, integrity and availability in information security. Journal of ICT in Education, 8(2), pp.34-42.

Yurtseven, M.K. and Buchanan, W.W., 2013, March. Socio-technical system design: a general systems theory perspective. In VIII International Conference on Engineering and Computer Education (COPEC), Luanda, Angola.

Zalewski, J. and Kornecki, A., 2019. Trends and challenges in the aviation systems safety and cybersecurity. TASK Quarterly: scientific bulletin of Academic Computer Centre in Gdansk, 23.

Żmigrodzka, M., 2020. Cybersecurity–One of the Greatest Challenges for Civil Aviation in the 21st Century. Safety & Defense, 6(2), pp.33-41.

Downloads

Published

2025-07-23

How to Cite

Ojo-Oba, R. O. (2025). Cybersecurity Challenges in Aviation: Safeguarding Airline Operations against Emerging Threats. Journal of Technology and Systems, 7(5), 1–13. https://doi.org/10.47941/jts.3000

Issue

Vol. 7 No. 5 (2025)

Section

Articles

License

Copyright (c) 2025 Rukayat Omobolanle Ojo-Oba

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

Authors retain copyright and grant the journal right of first publication with the work simultaneously licensed under a Creative Commons Attribution (CC-BY) 4.0 License that allows others to share the work with an acknowledgment of the work's authorship and initial publication in this journal.