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The Need for International and Regional Airport Infrastructure and Handling Capability Development in the Asia-Pacific Region

Received: 23 May 2022     Accepted: 13 June 2022     Published: 5 July 2022
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Abstract

From the past decades, it can also be observed that along with the economies of East Asian countries the aviation industry has also received remarkable opportunities to grow. With time international travel increased worldwide and on average, the growth rate of international passengers increased and became 3% in the global market. Moreover, the East Asian regions face a 5-8% average growth in international passengers per year. This increased growth in international travel in the Asia-Pacific region is not only bearing fruitful outcomes for the economy but it has also connected the region with high-profile aviation industries around the globe, which are further supporting the economic and regional development in the region. In this research, the East Asian regions are referred to as Cambodia, Laos, Vietnam, Malaysia, Philippines, Thailand, Singapore, South Korea, North Korea, Indonesia, Hong Kong, China, Taiwan, and Japan. Increased air traffic in the Asia-Pacific region has provided many opportunities for the aviation industries to bring improvement, but certain challenges are associated with regional airport development due to the increased rate of international travel. When the demand for international travel increases, it also enforces the aviation industries to increase their capacities, but this increase in demand or capacity increases the potential safety risks in the region which are associated with costs, delays, and congestion. Moreover, it also becomes challenging for the economy of the country if air travel is increasing continuously at a high pace but still there is no regional development of airports to accommodate the increased demand. Therefore, with the increased air travel in the Asia-Pacific region, there is a need to increase the regional development of airports in the region to mitigate the challenges associated with the increased demand, otherwise, this can impact the performance of already existing local airports in the region. In the coming decades, it is expected that huge and planned capital investments will be made in Asia-Pacific regions for improving and developing the airport-related infrastructures which will ease the flow of air travel. More than the cumulative investment of US$275 billion is expected in the regional developments of the airport in the Asia-Pacific region. This research is based on investigating the need for international and regional airport development in the Asia-Pacific region.

Published in American Journal of Traffic and Transportation Engineering (Volume 7, Issue 4)
DOI 10.11648/j.ajtte.20220704.12
Page(s) 65-73
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.

Copyright

Copyright © The Author(s), 2022. Published by Science Publishing Group

Keywords

Airport Development, Air Traffic, Infrastructure, Aircraft Handling, COVID

References
[1] Gössling, S. and Upham, P. eds., 2019. Climate change and aviation: Issues, challenges and solutions. Earthscan. S Gössling and P Upham, 2019.
[2] Tsui, W. H. K., Balli, H. O., Gilbey, A. and Gow, H., 2014. Operational efficiency of Asia–Pacific airports. Journal of Air Transport Management, 40, pp. 16-24.
[3] Halpern, N. and Graham, A., 2016. Factors affecting airport route development activity and performance. Journal of Air Transport Management, 56, pp. 69-78.
[4] Hardie, J. A. and Brennan, P. A., 2020. Are you surgically current? Lessons from aviation for returning to non-urgent surgery following COVID-19. British Journal of Oral and Maxillofacial Surgery.
[5] Hafidi, M., Benaddy, M. and Krit, S. D., 2018, June. Review of optimization and automation of air traffic control systems. In Proceedings of the Fourth International Conference on Engineering & MIS 2018 (pp. 1-7).
[6] Qvesel, J., 2020. Expanding the Copenhagen airport one-roof terminal. Journal of Airport Management, 14 (4), pp. 420-432.
[7] Lawton, T. C., 2017. Cleared for take-off: Structure and strategy in the low fare airline business. Routledge.
[8] Ledford, J. R. and Gast, D. L. eds., 2014. Single case research methodology: Applications in special education and behavioral sciences. Routledge.
[9] Lundberg, J., Arvola, M., Westin, C., Holmlid, S., Nordvall, M. and Josefsson, B., 2018. Cognitive work analysis in the conceptual design of first-of-a-kind systems–designing urban air traffic management. Behaviour & Information Technology, 37 (9), pp. 904-925.
[10] Di Vito, V., 2016. Special issue on air traffic management.
[11] Zhang, A., Wan, Y. and Yang, H., 2019. Impacts of high-speed rail on airlines, airports and regional economies: A survey of recent research. Transport Policy, 81, pp. A1-A19.
[12] Kazda, A., Hromádka, M. and Mrekaj, B., 2017. Small regional airports operation: unnecessary burdens or key to regional development. Transportation Research Procedia, 28, pp. 59-68.
[13] Mota, M., 2016. Risk management: Where are the greatest risks in the airport development lifecycle and what factors should be front of mind. Journal of Airport Management, 10 (3), pp. 229-244.
[14] U.S Aviation, Fleet, Airport and Airway use concepts; 2018. Available at: https://www.nap.edu/read/10319/chapter/551 pp. 50-53.
[15] Monterrubio, C., Andriotis, K. and Rodríguez-Muñoz, G., 2020. Residents’ perceptions of airport construction impacts: A negativity bias approach. Tourism Management, 77, p. 103983.
[16] Ganić, E., Babić, O., Čangalović, M. and Stanojević, M., 2018. Air traffic assignment to reduce population noise exposure using activity-based approach. Transportation Research Part D: Transport and Environment, 63, pp. 58-71.
[17] Mostafa, M. F., Aleem, S. H. A. and Ibrahim, A. M., 2016. Using solar photovoltaic at Egyptian airports: Opportunities and challenges. In 2016 Eighteenth International Middle East Power Systems Conference (MEPCON) (pp. 73-80). IEEE.
[18] Moussa, F. Z. B., Rasovska, I., Dubois, S., De Guio, R. and Benmoussa, R., 2017. Reviewing the use of the theory of inventive problem solving (TRIZ) in green supply chain problems. Journal of cleaner production, 142, pp. 2677-2692.
[19] Vecchi, V. and Hellowell, M., 2018. Public–private partnerships: Recent trends and the central role of managerial competence. In The Palgrave handbook of public administration and management in Europe (pp. 381-401). Palgrave Macmillan, London.
[20] Mteki, N., Murayama, T. and Nishikizawa, S., 2017. Social impacts induced by a development project in Tanzania: A case of airport expansion. Impact Assessment and Project Appraisal, 35 (4), pp. 272-283.
[21] Muhaise, H., Ejiri, A. H., Muwanga-Zake, J. W. F. and Kareyo, M. (2020), The Research Philosophy Dilemma for Postgraduate Student Researchers.
[22] Newhouse, A. and Tsuneyoshi, T., 2012. CISG–A Tool for Globalisation (1): American and Japanese Perspectives. Ritsumeikan law review, 29, pp. 1-41.
[23] Galland, M., Eastmond, S., Kirk, M. and Collins, G., 2020. London Luton Airport Direct Air-Rail Transit System. In Automated People Movers and Automated Transit Systems 2020 (pp. 108-120). Reston, VA: American Society of Civil Engineers.
[24] Kim, C., Costello, F. J. and Lee, K. C., 2019. Integrating qualitative comparative analysis and support vector machine methods to reduce passengers’ resistance to biometric e-gates for sustainable airport operations. Sustainability, 11 (19), p. 5349.
[25] Patel, V., 2018. Airport passenger processing technology: a biometric airport journey.
[26] Kovynyov, I. and Mikut, R., 2019. Digital technologies in airport ground operations. NETNOMICS: Economic Research and Electronic Networking, 20 (1), pp. 1-30.
[27] Sukumaran, S. and Sudhakar, K., 2017. Fully solar powered airport: A case study of Cochin International airport. Journal of Air Transport Management, 62, pp. 176-188.
[28] Zaharia, S. E. and Pietreanu, C. V., 2018. Challenges in airport digital transformation. Transportation research procedia, 35, pp. 90-99.
[29] Guzhva, V. S., Raghavan, S. and D’Agostino, D. J., 2018. Aircraft Leasing and Financing: Tools for Success in International Aircraft Acquisition and Management. Elsevier.
[30] Antulov-Fantulin, B., Juričić, B., Radišić, T. and Çetek, C., 2020. Determining Air Traffic Complexity–Challenges and Future Development. Promet-Traffic & Transportation, 32 (4), pp. 475-485.
[31] Insua, D. R., Alfaro, C., Gomez, J., Hernandez-Coronado, P. and Bernal, F., 2019. Forecasting and assessing consequences of aviation safety occurrences. Safety science, 111, pp. 243-252.
[32] Titiana, 2019. The Impact of Airport Development on Economic Development. Available at: https://sites.duke.edu/urbaneconomics/?p=1248
[33] Huynh, T. M., Kim, G. and Ha, H. K., 2020. Comparative analysis of efficiency for major Southeast Asia airports: A two-stage approach. Journal of Air Transport Management, 89, p. 101898.
[34] Upham, P., Thomas, C., Gillingwater, D. and Raper, D., 2003. Environmental capacity and airport operations: current issues and future prospects. Journal of Air Transport Management, 9 (3), pp. 145-151.
[35] Uskelenova, A. T., Shadiyev, K. K. and Tatygulov, A. A., 2017. Efficient model of economic growth in the conditions of post-crisis development of the society in the republic of Kazakhstan. Journal of Advanced Research in Law and Economics, 8 (2 (24)), pp. 635-643.
[36] Ventura, P., Zazzi, M., Rossetti, S. and Carra, M., 2020. Urban Development and Airports in Northern and Central Italy: Main Trends and a Focus on Parma Giuseppe Verdi Case Study. Transportation Research Procedia, 45, pp. 914-921.
[37] Vistas, I., 2015. Asia Pacific Commercial Air Transport: Current and Future Economic Benefits. [Online] InterVISTAS Consulting Inc., p.i. Available at: https://www.iata.org/contentassets/5d4c3f78802248378497cc561ca019b0/intervistas-report-aspac-dec2015.pdf [Accessed 15 December 2015].
[38] Setiawan, M. I., Hasyim, C., Kurniasih, N., Abdullah, D., Napitupulu, D., Rahim, R., Sukoco, A., Dhaniarti, I., Suyono, J., Sudapet, I. N. and Nasihien, R. D., 2018, April. E-Business, airport development and its impact on the increasing of information of communication development in Indonesia. In Journal of Physics: Conference Series (Vol. 1007, No. 1, p. 012046). IOP Publishing.
[39] Wong, W. H., Cheung, T., Zhang, A. and Wang, Y., 2019. Is spatial dispersal the dominant trend in air transport development? A global analysis for 2006–2015. Journal of Air Transport Management, 74, pp. 1-12.
[40] Zhang, F. and Graham, D. J., 2020. Air transport and economic growth: a review of the impact mechanism and causal relationships. Transport Reviews, pp. 1-23.
[41] Zhang, X., Davidson, E. A., Mauzerall, D. L., Searchinger, T. D., Dumas, P. and Shen, Y., 2015. Managing nitrogen for sustainable development. Nature, 528 (7580), pp. 51-59.
[42] Zhukovskaya, I. V., Shinkevich, M. V., Sutyagin, S. A., Klimova, N. V., Kurbanov, R. A., Belyalova, A. M. and Lushchik, I. V., 2017. Innovative Method for Assessing Corporate Social and Economic Policy: Reproductive Approach. Eurasian journal of analytical chemistry, 12 (7 B), pp. 1441-1451.
[43] Zografos, K. G., Madas, M. A. and Androutsopoulos, K. N., 2017. Increasing airport capacity utilisation through optimum slot scheduling: review of current developments and identification of future needs. Journal of Scheduling, 20 (1), pp. 3-24.
[44] Amankwah-Amoah, J., 2020. Stepping up and stepping out of COVID-19: New challenges for environmental sustainability policies in the global airline industry. Journal of Cleaner Production, 271, p. 123000.
[45] Tolkach, D., Chon, K. K. and Xiao, H., 2016. Asia Pacific tourism trends: Is the future ours to see?. Asia Pacific Journal of Tourism Research, 21 (10), pp. 1071-1084.
[46] Kang, I., Han, S. and Lee, J., 2017. Task-oriented and relationship-building communications between air traffic controllers and pilots. Sustainability, 9 (10), p. 1770.
[47] Tuchen, S., Arora, M. and Blessing, L., 2020. Airport user experience unpacked: Conceptualizing its potential in the face of COVID-19. Journal of Air Transport Management, p. 101919.
[48] Weber, L., 2017. International Civil Aviation Organisation. Kluwer Law International BV.
[49] World Health Organisation, 2020. Coronavirus disease 2019 (COVID-19): situation report, 82.
[50] Federico, G. and Vasta, M., August 2020. EHES Working Paper| No. 192|. The two Revolutions in Economic History Martina Cioni, Department of Economics and Statistics, University of Siena.
[51] Clayton Ed., 2019. Airport infrastructure in Asia. Available at: https://www.pwc.com/gx/en/capital-projects-infrastructure/pdf/pwc-airport-infrastructure-in-asia.pdf
[52] ADB Safegate, 2017. BLOG; Available at: https://blog.adbsafegate.com-air-traffic-expansion-is-biggest-challenge-facing-airports/
Cite This Article
  • APA Style

    Kosuke Sendo. (2022). The Need for International and Regional Airport Infrastructure and Handling Capability Development in the Asia-Pacific Region. American Journal of Traffic and Transportation Engineering, 7(4), 65-73. https://doi.org/10.11648/j.ajtte.20220704.12

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    ACS Style

    Kosuke Sendo. The Need for International and Regional Airport Infrastructure and Handling Capability Development in the Asia-Pacific Region. Am. J. Traffic Transp. Eng. 2022, 7(4), 65-73. doi: 10.11648/j.ajtte.20220704.12

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    AMA Style

    Kosuke Sendo. The Need for International and Regional Airport Infrastructure and Handling Capability Development in the Asia-Pacific Region. Am J Traffic Transp Eng. 2022;7(4):65-73. doi: 10.11648/j.ajtte.20220704.12

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  • @article{10.11648/j.ajtte.20220704.12,
      author = {Kosuke Sendo},
      title = {The Need for International and Regional Airport Infrastructure and Handling Capability Development in the Asia-Pacific Region},
      journal = {American Journal of Traffic and Transportation Engineering},
      volume = {7},
      number = {4},
      pages = {65-73},
      doi = {10.11648/j.ajtte.20220704.12},
      url = {https://doi.org/10.11648/j.ajtte.20220704.12},
      eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.ajtte.20220704.12},
      abstract = {From the past decades, it can also be observed that along with the economies of East Asian countries the aviation industry has also received remarkable opportunities to grow. With time international travel increased worldwide and on average, the growth rate of international passengers increased and became 3% in the global market. Moreover, the East Asian regions face a 5-8% average growth in international passengers per year. This increased growth in international travel in the Asia-Pacific region is not only bearing fruitful outcomes for the economy but it has also connected the region with high-profile aviation industries around the globe, which are further supporting the economic and regional development in the region. In this research, the East Asian regions are referred to as Cambodia, Laos, Vietnam, Malaysia, Philippines, Thailand, Singapore, South Korea, North Korea, Indonesia, Hong Kong, China, Taiwan, and Japan. Increased air traffic in the Asia-Pacific region has provided many opportunities for the aviation industries to bring improvement, but certain challenges are associated with regional airport development due to the increased rate of international travel. When the demand for international travel increases, it also enforces the aviation industries to increase their capacities, but this increase in demand or capacity increases the potential safety risks in the region which are associated with costs, delays, and congestion. Moreover, it also becomes challenging for the economy of the country if air travel is increasing continuously at a high pace but still there is no regional development of airports to accommodate the increased demand. Therefore, with the increased air travel in the Asia-Pacific region, there is a need to increase the regional development of airports in the region to mitigate the challenges associated with the increased demand, otherwise, this can impact the performance of already existing local airports in the region. In the coming decades, it is expected that huge and planned capital investments will be made in Asia-Pacific regions for improving and developing the airport-related infrastructures which will ease the flow of air travel. More than the cumulative investment of US$275 billion is expected in the regional developments of the airport in the Asia-Pacific region. This research is based on investigating the need for international and regional airport development in the Asia-Pacific region.},
     year = {2022}
    }
    

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  • TY  - JOUR
    T1  - The Need for International and Regional Airport Infrastructure and Handling Capability Development in the Asia-Pacific Region
    AU  - Kosuke Sendo
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    AB  - From the past decades, it can also be observed that along with the economies of East Asian countries the aviation industry has also received remarkable opportunities to grow. With time international travel increased worldwide and on average, the growth rate of international passengers increased and became 3% in the global market. Moreover, the East Asian regions face a 5-8% average growth in international passengers per year. This increased growth in international travel in the Asia-Pacific region is not only bearing fruitful outcomes for the economy but it has also connected the region with high-profile aviation industries around the globe, which are further supporting the economic and regional development in the region. In this research, the East Asian regions are referred to as Cambodia, Laos, Vietnam, Malaysia, Philippines, Thailand, Singapore, South Korea, North Korea, Indonesia, Hong Kong, China, Taiwan, and Japan. Increased air traffic in the Asia-Pacific region has provided many opportunities for the aviation industries to bring improvement, but certain challenges are associated with regional airport development due to the increased rate of international travel. When the demand for international travel increases, it also enforces the aviation industries to increase their capacities, but this increase in demand or capacity increases the potential safety risks in the region which are associated with costs, delays, and congestion. Moreover, it also becomes challenging for the economy of the country if air travel is increasing continuously at a high pace but still there is no regional development of airports to accommodate the increased demand. Therefore, with the increased air travel in the Asia-Pacific region, there is a need to increase the regional development of airports in the region to mitigate the challenges associated with the increased demand, otherwise, this can impact the performance of already existing local airports in the region. In the coming decades, it is expected that huge and planned capital investments will be made in Asia-Pacific regions for improving and developing the airport-related infrastructures which will ease the flow of air travel. More than the cumulative investment of US$275 billion is expected in the regional developments of the airport in the Asia-Pacific region. This research is based on investigating the need for international and regional airport development in the Asia-Pacific region.
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Author Information
  • Boeing 777 Fleet Flight Operations Department, Osaka Aviation Technical College, Osaka, Japan

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