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What to consider when implementing remote control towers? Colombia case study

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Języki publikacji
EN
Abstrakty
EN
The aim of this article is to assist anyone considering implementing these systems. Along the document the main differences between conventional and remote control are stated, with the intention to clarify what advantages they can bring, the changes involved when adopting remote towers, and a brief outline of a transition plan for adopting these systems. Subsequently, the benefits to a country’s air navigation from utilizing these systems is discussed by studying the case of Colombia, a country with a unique orography. In addition, the specific characteristics of the airports are analysed to propose the candidates which may have the best outcome if remote tower systems are implemented.
Czasopismo
Rocznik
Strony
147--157
Opis fizyczny
Bibliogr. 18 poz.
Twórcy
  • Universidad Politécnica de Madrid (UPM), Escuela Técnica Superior de Ingeniería Aeronáutica y del Espacio (ETSIAE) Madrid, Spain
Bibliografia
  • 1. Aeroermo (2021). Colombia initiates Pilot Project for the Remote Control of Air Traffic through Digital Towers. https://www.aeroermo.com/home/colombia-inicia-proyecto-piloto-para-el-control-remoto-del-trafico-aereo-a-traves-de-torres-digitales/ [access: 15.10.2022].
  • 2. Aerocivil (2018). Special Administrative Unit of Civil Aeronautics.
  • 3. Balogh G. (2022). Digital remote towers. Change management us key to success. https://www.eurocontrol.int/sites/default/files/2022-06/skyway76-advertorial-indra.pdf [access: 19.10.2022].
  • 4. Beek S.D. (2017). Remote Towers: A Better Future for America's Small Airports. Reason. https://reason.org/wp-content/uploads/2017/07/air_traffic_control_remote_towers-1.pdf [access: 04.11.2022].
  • 5. CANSO (2021). Guidance Material for Remote and Digital Towers. https://canso.fra1.digitaloceanspaces.com/uploads/2021/04/canso_guidance_material_for_remote_and_digital_towers.pdf [access: 05.09.2022].
  • 6. DANE (2018). National Administrative Department of Statistics of Colombia.
  • 7. EASA (2020). Easy Access Rules for Guidance Material on Remote Aerodrome Air Traffic Services. https://www.easa.europa.eu/sites/default/files/dfu/easy_access_rules_for_guidance_material_on_remote_aerodrome_air_traffic_services.pdf [access: 05.09.2022].
  • 8. EASA (2021). Easy Access Rules for Air Traffic Management/Air Navigation Services (Regulation (EU) 2017/373). https://www.easa.europa.eu/en/downloads/125141/en [access: 05.09.2022].
  • 9. FAA (2020). Remote Tower Systems Concept of Operations (ConOps). https://www.faa.gov/airports/planning_capacity/non_federal/remote_tower_systems/media/rt-conops-version-1-0-2020-04-07.pdf [access: 07.09.2022].
  • 10. FAA (2022). Remote Tower (RT) Systems Minimum Functional and Performance Requirements for Non-Federal Applications. For use in class D airspace. https://www.faa.gov/airports/planning_capacity/non_federal/remote_tower_systems/media/draft-Remote-Tower-Systems-Requirements-3.0-2022-01.pdf [access: 07.09.2022].
  • 11. Kearney P., Li W.-C. (2018). Multiple remote tower for Single European Sky: The evolution from initial operational concept to regulatory approved implementation. Elsevier. https://www.sciencedirect.com/science/article/pii/S0965856417303397 [access: 21.10.2022].
  • 12. Nyström S. (2019). How competition and technology and technology can and cannot contribute to reducing costs of air traffic control. Copenhaguen Econocmics. https://copenhageneconomics.com/wp-content/uploads/2021/12/reducing-costs-of-air-traffic-control.pdf [access: 07.10.2022].
  • 13. OACI (2019). Implementation of remote control tower (R-TWR) in Brazil. https://www.icao.int/SAM/Documents/2019-06901-SAMIG24/SAMIG24_WP6.6%20R-TWR%20BRAZIL.pdf [access: 11.10.2022].
  • 14. SESAR (n.a.). Solution #52 - Remote tower for two low density aerodromes. https://www.sesarju.eu/sites/default/files/documents/solution/Sol52%201_Remote_Tower_two_low_density_airports_contextual_note.pdf [access: 10.09.2022].
  • 15. SESAR (2020). Remotely provided air traffic service for multiple aerodromes. https://www.sesarju.eu/sites/default/files/documents/solution/Sol52%201_Remote_Tower_two_low_density_airports_contextual_note.pdf [access: 10.09.2022].
  • 16. SESAR. (n.a.). SESAR and the digital transformation of Europe’s Airports. https://www.sesarju.eu/sites/default/files/documents/reports/SESAR%20and%2 0the%20digital%20transformation%20of%20europe%20airports.pdf [access: 08.09.2022].
  • 17. Shmelova T., Rizun N., Kredentsar S., Yastrub M. (2021). Enhancement of the Methodology for the Selection of the Optimal Location of the Remote Tower Centre. https://ceur-ws.org/Vol-3101/Paper25.pdf [access: 11.10.2022].
  • 18. Unidad Administrativa Especial de Aeronáutica Civil. (2020). Aerodrome information & Data base. https://www.aerocivil.gov.co/atencion/estadisticas-de-las-actividades-aeronauticas/Paginas/bases-de-datos.aspx [access: 15.10.2022].
Uwagi
PL
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-98a7b141-9b1e-4ed3-ab98-76ec0e0d992e
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