Abstract
The concept of Industry 4.0 arose in Germany in 2011 and spread to other countries. Industry 4.0 refers to a strategic step that was introduced by the German government seeking ways to change industrial manufacturing through digitalization and the development of new technologies. It introduced the world with new technologies such as cybersecurity, big data, the cloud, simulations, augmented reality, additive manufacturing, etc. The technologies also spread to other fields of business sectors such as aviation, agriculture, health, etc. Thanks to these technologies aviation sector underwent a change named Aviation 4.0. In this chapter, we first discuss the Industry revolution, Industry 4.0, and its technologies. Then, we explain Aviation 4.0 and technologies used in Aviation 4.0. Aviation 4.0 technologies are divided into three categories as follows: Ground services application in Aviation 4.0., Maintenance and production in Aviation 4.0, Unmanned aerial vehicles technology in Aviation 4.0. Furthermore, we give a brief discussion about Aviation 5.0. Finally, the conclusion is given.
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References
Liao, Y., Deschamps, F., Loures, E.F.R., Ramos, L.F.P.: Past, present and future of industry 4.0: a systematic literature review research agenda proposal. Int. J. Prod. Res. 55(12), 3609–3629 (2017)
Zhou, K., Liu, T., Zhou, L.: Industry 4.0: towards future industrial opportunities and challenges, 2015 12th International Conference on Fuzzy Systems and Knowledge Discovery (FSKD), IEEE, pp. 2147–2152 (2015)
Von Tunzelmann, N.: Historical coevolution of governance and technology in the industrial revolutions. Struct. Change Econ. Dyn. 14(4), 365–384 (2003)
Puriwat, W., Tripopsakul, S.: Preparing for industry 4.0—will youths have enough essential skills?: An evidence from Thailand. Int. J. Instr. 13(3), 89–104 (2020)
Magruk, A.: Uncertainty in the sphere of the industry 4.0—potential areas to research. Bus., Manage. Educ. 14(2), 275–291 (2016)
Rojko, A.: Industry 4.0 concept: background and overview. Int. J. Interact. Mobile Technol. (IJIM), 11(5), 77–90 (2017)
Petrillo, A., Felice, F. De, Cioffi, R., Zomparelli, F.: Fourth industrial revolution: current practices, challenges, and opportunities in digital transformation in smart manufacturing. InTech (2018)
Schuh, G., Potente, T., Wesch-Potente, C., Weber, A.R., Prote, J.P.: Collaboration mechanisms to increase productivity in the content of industrie 4.0. Paper presented at Robust Manufacturing Conference (RoMaC 2014). Bremen, Germany. Elsevier Science (2014) https://doi.org/10.1016/j.procir.2014.05.016
Baldassarre, F., Ricciardi, F., Campo, R.: The advent of industry 4.0 in manufacturing industry: literature review and growth opportunities. Dubrovnik Int. Econ. Meet. 3(1), 632–643 (2017)
Dodson, M.G.: “An Historical and Applied Aerodynamic Study of the Wright Brothers’ Wind Tunnel Test Program and Application to Successful Manned Flight”, US Naval Academy Technical Report, USNA-334, archived from the original on 5 September 2011, retrieved 11 March 2009 (2005)
URL-3. https://en.wikipedia.org/wiki/History_of_aviation#cite_note-Dodson-67
Telegram from Orville Wright in Kitty Hawk, North Carolina, to His Father Announcing Four Successful Flights, 1903 December 17”. World Digital Library. 17 December 1903. Retrieved 21 July 2013
Valdes, R.A., Comendador, V.F.G., Sanz, A.R., Castan, J.P. Aviation 4.0 more safety through automation and digitization. Aircr. Technol. 2(4), 25–41 (2018)
Atalık, O, Akan, A.G.Ş., Bakır, A.G.M.: Havacilik 4.0: havayolu ve havaalani endüstrisinde güncel endüstri 4.0 uygulamaları. Sci. Committee 879
Barbosa, G.F., Aroca, R.V.: Advances of Industry 4.0 concepts on aircraft construction: an overview of trends. J. Steel Struct. Constr. 2472–0437 (2017)
URL-7. https://www.aa.com.tr/tr/turkiye/sabiha-gokcen-havalimaninda-biyometrikotomatik-gecis/1474378
URL-10. https://arpost.co/2019/02/01/augmented-reality-solution-to-shorten-aircraft-skin-inspection-time/
URL-12. https://www.rembeltech.com/yeni-nesil-tarim-dji-agras-mg-1/
URL-14. https://newatlas.com/amazon-prime-air-delivery-drone/29982/
Ghafar, N.H., Rahman, N.A.A., Mohammad, M.F.N., Shah, M.Z., Hassan, F.: Developing new aviation management postgraduate program in responding to industry 4.0: key findings from multistages-multilevels market study. IOP Conf. Ser.: Materials Sci. Eng. 645(1), 28 October 2019. Int. Conf. Aerosp. Aviat. ICASA 2018; Institut Teknologi BandungBandung City; Indonesia; 23–25 October 2018
Ghafar, N.H., Harun, K., Lailawati, M.S., Rahman, N.A.A.: Preliminary investigation of industry 4.0 readiness among small and medium aviation companies in Malaysia. J. Phys.: Conf. Ser. 1573, 012030. (2020) https://doi.org/10.1088/1742-6596/1573/1/012030
Büyüközkan, G., Feyzioğlu, O., Havle, C.A.: Analysis of success factors in aviation 4.0 using integrated intuitionistic fuzzy MCDM methods. International Conference on Intelligent and Fuzzy Systems, vol. 1029, pp. 598–606. INFUS 2019; Istanbul; Turkey; 23 July 2019 through 25 July 2019 (2020)
Lehmann, J., Heußner, A., Shamiyeh, M., Ziemer, S.: Extracting and modeling knowledge about aviation for multilingual semantic applications in industry 4.0, Proceedings—2018 6th International Conference on Enterprise Systems, ES 2018, 24 December 2018, Article number 8588258, pp. 56–606 International Conference on Enterprise Systems, ES 2018; Limassol; Cyprus; 1–2 October 2018
Mládková, L.: Industry 4.0: human-technology interaction: experience learned from the aviation industry. Proceedings of the European Conference on Knowledge Management, ECKM vol. 1, pp. 571–578 2018. 19th European Conference on Knowledge Management, ECKM 2018; Padua; Italy; 6–7 September 2018
Arnaldo Valdes, R., Gómez Comendador, V.F.: Aviation 4.0: more safety through automation and digitization. WIT Transactions on the Built Environment, vol. 174, pp. 225–236 (2018)
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Aydın, S., Kahraman, C. (2022). Aviation 4.0 Revolution. In: Kahraman, C., Aydın, S. (eds) Intelligent and Fuzzy Techniques in Aviation 4.0. Studies in Systems, Decision and Control, vol 372. Springer, Cham. https://doi.org/10.1007/978-3-030-75067-1_1
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