How to cite this paper
Cíleček, J., Teichmann, D & Szabo, S. (2024). Optimization model of staffing for aircraft ground handling in the case of personnel substitutability.Journal of Project Management, 9(3), 255-268.
Refrences
Al-Bazi, A., Gok, Y. S., Ozturk, C., & Guimarans, D. (2016). Developing a mathematical model for scheduling of turnaround operations (low cost airline as a case study). In International Aviation Management Conference (IAMC 2016).
Andreatta, G., De Giovanni, L., & Monaci, M. (2014). A fast heuristic for airport ground-service equipment–and–staff allocation. Procedia-Social and Behavioral Sciences, 108, 26-36.
Arena, M., & Aprea, C. (2021). Impact of COVID-19 pandemic on air transport: Overview and implications. Advances in Environmental and Engineering Research, 2(1), 1-14.
Ashford, N. J., Stanton, H. M., Moore, C. A., Coutu, P., & Beasley, J. R. (2015). Operações Aeroportuárias. Bookman Editora.
Bassett, E. E., et al. (2000). Statistics: problems and solutions, Second edition, Singapore: World Scientific, ISBN 981-02-4321-9.
Endrizalová, E., Němec, V., Szabo, S., & Radovan, S. (2016). Dynamic mathematical model of ground support equipment utilization in aircraft technical handling. In Proceedings of 20th International Conference Transport Means (pp. 759-762).
Evler, J., Asadi, E., Preis, H., & Fricke, H. (2018). Stochastic control of turnarounds at HUB-airports. Proceedings of the Eighth SESAR Innovation Days, Salzburg, Austria, 3-7.
Field, M., S. Keller, L.S. (1998), Project management, London: International Thomson Business Press, ISBN 1-86152-274-6.
Fricke, H., & Schultz, M. (2008, June). Improving aircraft turn around reliability. In Third International Conference on Research in Air Transportation (pp. 335-343).
Kabongo, P. C., Ramos, T. M. F., Leite, A. F., Ralha, C. G., & Weigang, L. (2016, November). A multi-agent planning model for airport ground handling management. In 2016 IEEE 19th International Conference on Intelligent Transportation Systems (ITSC) (pp. 2354-2359). IEEE.
Kazda, A., & Caves, R. E. (Eds.). (2010). Airport design and operation. Emerald Group Publishing Limited.
Kierzkowski, A., & Kisiel, T. (2017). A simulation model of aircraft ground handling: case study of the Wroclaw airport terminal. In Information Systems Architecture and Technology: Proceedings of 37th International Conference on Information Systems Architecture and Technology–ISAT 2016–Part III (pp. 109-125). Springer International Publishing.
Kroese, D. P., Taimre, T., & Botev, Z. I. (2011). Handbook of Monte Carlo Methods. John Willey & Sons. Inc., Hoboken, New Jersey.
Kwasiborska, A. (2010). Modelling of ground handling operations at airport. Journal of KONES, 17(3), 253-261.
Lockyer, K. G., & Gordon, J. (1991). Critical path analysis and other project network techniques. Financial Times/Prentice Hall.
Malandri, C., Mantecchini, L., & Reis, V. (2019). Aircraft turnaround and industrial actions: How ground handlers' strikes affect airport airside operational efficiency. Journal of Air Transport Management, 78, 23-32.
Mamdouh, M., Ezzat, M., & Hefny, H. A. (2020). Airport resource allocation using machine learning techniques. Inteligencia Artificial, 23(65), 19-32.
Maylor, H. (2010). Project management, Harlow: Financial Times Prentice Hall, 4th ed., ISBN 978-0-273-70432-4.
Meredith, J.R., & Mantel S.J. (2003). Project management: a managerial approach, 5th ed., New York: Wiley, ISBN 0-471-07323-7.
Okwir, S., Ulfvengren, P., Angelis, J., Ruiz, F., & Guerrero, Y. M. N. (2017). Managing turnaround performance through collaborative decision making. Journal of Air Transport Management, 58, 183-196.
Popova-Zeugmann, L. (2013). Time and Petri net, Heidelberg: Springer, ISBN 978-3-642-41114-4.
Shen, C. W., Peng, Y. T., & Tu, C. S. (2019). Multi-criteria decision-making techniques for solving the airport ground handling service equipment vendor selection problem. Sustainability, 11(12), 3466.
Schmidt, M. (2017). A review of aircraft turnaround operations and simulations. Progress in Aerospace Sciences, 92, 25-38.
Schultz, M. (2018). Fast aircraft turnaround enabled by reliable passenger boarding. Aerospace, 5(1), 8.
Schultz, M., Evler, J., Asadi, E., Preis, H., Fricke, H., & Wu, C. L. (2020). Future aircraft turnaround operations considering post-pandemic requirements. Journal of Air Transport Management, 89, 101886.
Strakova, E., & Mrva, P. (2011). Analysis the Utilization of Ground Support Equipment in Aircraft Ground Handling, New trends in civil aviation 2011, CTU in Prague, Publisher CTU in Prague, pp. 113-116, ISBN 978-80-01-04893-1
Tabares, D. A., Mora-Camino, F., & Drouin, A. (2021). A multi-time scale management structure for airport ground handling automation. Journal of Air Transport Management, 90, 101959.
Teichmann, D., & Dorda, M. (2016). About an Unconventional Application of Assignment Problem, SSOV proceedings, available online: http://www.fhi.sk/files/katedry/kove/ssov/proceedings/Zbornik2016.pdf
Van Blokland, W. B., Santema, S. C., Huijzer, R., & Stals, R. (2008). Future airport turnaround ground handling processes. How to reduce the turn around time of aircraft at the airport. In 10th TRAIL Congress; TRAIL in perspective (pp. 1-25). TRAIL Research school.
Vidosavljevic, A., & Tosic, V. (2010, July). Modelling of turnaround process using petri nets. In Air Transport Research Society (ATRS) World Conference.
Weigert, D., Rettmann, A., Alomar, I., & Tolujew, J. (2018, April). Shortening the turnaround times of aircraft by improving ground handling processes through a simulation study. In 2018 4th International Conference on Logistics Operations Management (GOL) (pp. 1-8). IEEE.
Wilson, M. A. (2003, September). Collaborative decision making: Building consensus group decisions for project success. In Proceedings of the Project Management Institute Global Congress, North America, Baltimore, MD, USA (pp. 1-7).
Winston, W. L. (2003), Operation Research, 4, ISBN 9780534380588
Wu, C. L., & Caves, R. E. (2004a). Modelling and optimization of aircraft turnaround time at an airport. Transportation Planning and Technology, 27(1), 47-66.
Wu, C. L., & Caves, R. E. (2004b). Modelling and simulation of aircraft turnaround operations at airports. Transportation Planning and Technology, 27(1), 25-46.
Andreatta, G., De Giovanni, L., & Monaci, M. (2014). A fast heuristic for airport ground-service equipment–and–staff allocation. Procedia-Social and Behavioral Sciences, 108, 26-36.
Arena, M., & Aprea, C. (2021). Impact of COVID-19 pandemic on air transport: Overview and implications. Advances in Environmental and Engineering Research, 2(1), 1-14.
Ashford, N. J., Stanton, H. M., Moore, C. A., Coutu, P., & Beasley, J. R. (2015). Operações Aeroportuárias. Bookman Editora.
Bassett, E. E., et al. (2000). Statistics: problems and solutions, Second edition, Singapore: World Scientific, ISBN 981-02-4321-9.
Endrizalová, E., Němec, V., Szabo, S., & Radovan, S. (2016). Dynamic mathematical model of ground support equipment utilization in aircraft technical handling. In Proceedings of 20th International Conference Transport Means (pp. 759-762).
Evler, J., Asadi, E., Preis, H., & Fricke, H. (2018). Stochastic control of turnarounds at HUB-airports. Proceedings of the Eighth SESAR Innovation Days, Salzburg, Austria, 3-7.
Field, M., S. Keller, L.S. (1998), Project management, London: International Thomson Business Press, ISBN 1-86152-274-6.
Fricke, H., & Schultz, M. (2008, June). Improving aircraft turn around reliability. In Third International Conference on Research in Air Transportation (pp. 335-343).
Kabongo, P. C., Ramos, T. M. F., Leite, A. F., Ralha, C. G., & Weigang, L. (2016, November). A multi-agent planning model for airport ground handling management. In 2016 IEEE 19th International Conference on Intelligent Transportation Systems (ITSC) (pp. 2354-2359). IEEE.
Kazda, A., & Caves, R. E. (Eds.). (2010). Airport design and operation. Emerald Group Publishing Limited.
Kierzkowski, A., & Kisiel, T. (2017). A simulation model of aircraft ground handling: case study of the Wroclaw airport terminal. In Information Systems Architecture and Technology: Proceedings of 37th International Conference on Information Systems Architecture and Technology–ISAT 2016–Part III (pp. 109-125). Springer International Publishing.
Kroese, D. P., Taimre, T., & Botev, Z. I. (2011). Handbook of Monte Carlo Methods. John Willey & Sons. Inc., Hoboken, New Jersey.
Kwasiborska, A. (2010). Modelling of ground handling operations at airport. Journal of KONES, 17(3), 253-261.
Lockyer, K. G., & Gordon, J. (1991). Critical path analysis and other project network techniques. Financial Times/Prentice Hall.
Malandri, C., Mantecchini, L., & Reis, V. (2019). Aircraft turnaround and industrial actions: How ground handlers' strikes affect airport airside operational efficiency. Journal of Air Transport Management, 78, 23-32.
Mamdouh, M., Ezzat, M., & Hefny, H. A. (2020). Airport resource allocation using machine learning techniques. Inteligencia Artificial, 23(65), 19-32.
Maylor, H. (2010). Project management, Harlow: Financial Times Prentice Hall, 4th ed., ISBN 978-0-273-70432-4.
Meredith, J.R., & Mantel S.J. (2003). Project management: a managerial approach, 5th ed., New York: Wiley, ISBN 0-471-07323-7.
Okwir, S., Ulfvengren, P., Angelis, J., Ruiz, F., & Guerrero, Y. M. N. (2017). Managing turnaround performance through collaborative decision making. Journal of Air Transport Management, 58, 183-196.
Popova-Zeugmann, L. (2013). Time and Petri net, Heidelberg: Springer, ISBN 978-3-642-41114-4.
Shen, C. W., Peng, Y. T., & Tu, C. S. (2019). Multi-criteria decision-making techniques for solving the airport ground handling service equipment vendor selection problem. Sustainability, 11(12), 3466.
Schmidt, M. (2017). A review of aircraft turnaround operations and simulations. Progress in Aerospace Sciences, 92, 25-38.
Schultz, M. (2018). Fast aircraft turnaround enabled by reliable passenger boarding. Aerospace, 5(1), 8.
Schultz, M., Evler, J., Asadi, E., Preis, H., Fricke, H., & Wu, C. L. (2020). Future aircraft turnaround operations considering post-pandemic requirements. Journal of Air Transport Management, 89, 101886.
Strakova, E., & Mrva, P. (2011). Analysis the Utilization of Ground Support Equipment in Aircraft Ground Handling, New trends in civil aviation 2011, CTU in Prague, Publisher CTU in Prague, pp. 113-116, ISBN 978-80-01-04893-1
Tabares, D. A., Mora-Camino, F., & Drouin, A. (2021). A multi-time scale management structure for airport ground handling automation. Journal of Air Transport Management, 90, 101959.
Teichmann, D., & Dorda, M. (2016). About an Unconventional Application of Assignment Problem, SSOV proceedings, available online: http://www.fhi.sk/files/katedry/kove/ssov/proceedings/Zbornik2016.pdf
Van Blokland, W. B., Santema, S. C., Huijzer, R., & Stals, R. (2008). Future airport turnaround ground handling processes. How to reduce the turn around time of aircraft at the airport. In 10th TRAIL Congress; TRAIL in perspective (pp. 1-25). TRAIL Research school.
Vidosavljevic, A., & Tosic, V. (2010, July). Modelling of turnaround process using petri nets. In Air Transport Research Society (ATRS) World Conference.
Weigert, D., Rettmann, A., Alomar, I., & Tolujew, J. (2018, April). Shortening the turnaround times of aircraft by improving ground handling processes through a simulation study. In 2018 4th International Conference on Logistics Operations Management (GOL) (pp. 1-8). IEEE.
Wilson, M. A. (2003, September). Collaborative decision making: Building consensus group decisions for project success. In Proceedings of the Project Management Institute Global Congress, North America, Baltimore, MD, USA (pp. 1-7).
Winston, W. L. (2003), Operation Research, 4, ISBN 9780534380588
Wu, C. L., & Caves, R. E. (2004a). Modelling and optimization of aircraft turnaround time at an airport. Transportation Planning and Technology, 27(1), 47-66.
Wu, C. L., & Caves, R. E. (2004b). Modelling and simulation of aircraft turnaround operations at airports. Transportation Planning and Technology, 27(1), 25-46.