1. bookVolumen 22 (2021): Edición 3 (June 2021)
Detalles de la revista
License
Formato
Revista
eISSN
1407-6179
Primera edición
20 Mar 2000
Calendario de la edición
4 veces al año
Idiomas
Inglés
Acceso abierto

Time and Space Discretization in the Digital Twin of the Airport Transport Network

Publicado en línea: 22 Jun 2021
Volumen & Edición: Volumen 22 (2021) - Edición 3 (June 2021)
Páginas: 257 - 265
Detalles de la revista
License
Formato
Revista
eISSN
1407-6179
Primera edición
20 Mar 2000
Calendario de la edición
4 veces al año
Idiomas
Inglés

1. Antonov, D. A., Veremeenko, K. K., Zharkov, M. V., Zimin, R. Y., Kuznetsov, I. M., Pron’kin, A. N. (2015) Aerodrome vehicle integrated control system using computer vision. J. Comput. Syst. Sci. Int. 54, 629-638. Search in Google Scholar

2. Antonov, D. A., Veremeenko, K. K., Zharkov, M. V., Zimin, R. Y., Kuznetsov, I. M., Pron’kin, A. N. (2016) Test complex for the onboard navigation system of an airport ground vehicle. J. Comput. Syst. Sci. Int. 55, 832-841. Search in Google Scholar

3. Davis, P. V., Dove, M. J., Stockel, C. T. (1980) A Computer Simulation of Marine Traffic Using Domains and Arenas. Journal of Navigation, 33(2), May 1980, 215-222.10.1017/S0373463300035220 Search in Google Scholar

4. Dimitropoulos, K., Grammalidis, N., Simitopoulos, D., Pavlidou, N., Strintzis M. (2005) Aircraft Detection and Tracking using Intelligent Cameras. In: IEEE International Conference on Image Processing (ICIP 2005), 594-597, Genova.10.1109/ICIP.2005.1530125 Search in Google Scholar

5. Glaessgen, E. H., Stargel, D. S. (2012) The Digital Twin Paradigm for Future NASA and U.S. Air Force Vehicles. In: Proceedings of the AIAA 53rd Structures, Structural Dynamics, and Materials Conference: Digital Twin Special Session, Honolulu, HI, USA, 23–26 April 2012. Search in Google Scholar

6. Grieves, M. (2005) Product lifecycle management: The new paradigm for enterprises. International Journal Product Development, 2(1/2), 71-84.10.1504/IJPD.2005.006669 Search in Google Scholar

7. IATA (2011) International Air Transport Association: Vision 2050, Singapore, February 12. Search in Google Scholar

8. Kang, Y. T., Chen, W. J., Zhu, D. Q., Wang, J. H., Xie, Q. M. (2018) Collision avoidance path planning for ships by particle swarm optimization. Journal of Marine Science and Technology, 26(6), 777-786. Search in Google Scholar

9. Lee, S., Lee, D., Choi, P., Park, D. (2020) Accuracy-Power Controllable LiDAR Sensor System with 3D Object Recognition for Autonomous Vehicle. Sensors, 2020 Oct 7, 20(19):5706.10.3390/s20195706758238133036476 Search in Google Scholar

10. Madni, A. M., Madni, C. C., Lucero, S. D. (2019) Leveraging digital twin technology in model-based systems engineering. Systems, 7(1), 7.10.3390/systems7010007 Search in Google Scholar

11. Saifutdinov, F., Jackson, I., Tolujevs, J. (2021) Scenario Modeling in a Centralized Airport Ground Traffic Control System. In: Reliability and Statistics in Transportation and Communication. Selected Papers from the 20th International Conference RelStat2020, 14-17 October 2020, Riga, pp. 184-193.10.1007/978-3-030-68476-1_17 Search in Google Scholar

12. Saifutdinov, F., Tolujevs, J. (2020) A Model for Ground Transportation Systems Simulation at Airports under Centralized Control. In: ECMS 2020 Proceedings, European Council for Modeling and Simulation, pp. 5-10.10.7148/2020-0005 Search in Google Scholar

13. Tuegel, E. J. (2012) The Airframe Digital Twin: Some Challenges to Realization. In: 53rd AIAA/ASME/ASCE/AHS/ASC Struct. Struct. Dyn. Mater. Conf., p. 1812.10.2514/6.2012-1812 Search in Google Scholar

14. URL1 (2021) https://www.skybrary.aero/index.php/Advanced_Surface_Movement_Guidance_and_Control_System/, last accessed 2021/01/11. Search in Google Scholar

15. URL2 (2021) Digital Twin-ception: How SITA is Building the Virtual Airport of the Future. https://apex.aero/2019/11/11/digital-twins-sita-virtual-airport-future/, last accessed 2021/01/11. Search in Google Scholar

16. URL3 (2021) Improving airport decision making with the Digital Twin concept. https://www.internationalairportreview.com/article/101388/digital-twin-concept-data-airport-operations/, last accessed 2021/01/11. Search in Google Scholar

17. URL4 (2021) HKIA develops digital twin. https://opengovasia.com/hkia-develops-digital-twin/, last accessed 2021/01/11. Search in Google Scholar

18. URL5 (2021) 51WORLD’s Cloud Mirror System Helps Implement the Digital Twin Airport. https://medium.com/51vr/51worlds-cloud-mirror-system-helps-implement-the-digital-twin-airport-3e700124f399/, last accessed 2021/01/11. Search in Google Scholar

19. Zaccaria, V., Stenfelt, M., Aslanidou, I., Kyprianidis, K. G. (2018) Fleet monitoring and diagnostics framework based on digital twin of aero-engines. Turbo Expo: Power for Land, Sea, and Air, vol. 51128, p. V006T05A021, American Society of Mechanical Engineers.10.1115/GT2018-76414 Search in Google Scholar

Artículos recomendados de Trend MD

Planifique su conferencia remota con Sciendo