GCAA unveils largest-ever airspace restructuring project in Middle East

- Dubai, UAE.

The General Civil Aviation Authority, GCAA, has announced that on 7th December, 2017, in a ground-breaking and historic moment, the UAE will implement one of the largest airspace changes the region has ever seen.

Specifically, the date will signal the completion of the UAE Airspace Restructuring Project, ARP, which will see the Emirates Flight Information Region, FIR, transformed into the world’s first airspace structure to be completely based on Performance Based Navigation, PBN, with a Navigation Specification of RNAV-1 (GNSS).

This restructuring is the culmination of years of extensive analysis, development and collaboration across the UAE aviation community to enable the evolution of one of the most advanced air traffic management systems in the world. This has required extensive co-operation from the GCAA Sheikh Zayed Air Navigation Centre, Dubai Air Navigation Services, Abu Dhabi Airports Company, Abu Dhabi Department of Transport, Ras al-Khaimah Department of Civil Aviation, Sharjah Department of Civil Aviation, Fujairah Department of Civil Aviation, as well as many more aviation stakeholders.

The UAE ARP was designed to meet multiple objectives, all of which have been achieved in line with global best practices. Primarily, the airspace change was designed to increase UAE airspace capacity to meet the forecasted air traffic demand for 2022, enhance access to all UAE airports, improve efficiency for both aviation system customers and Air Navigation Service Providers, ANSP, and reduce the environmental impact of the increasing traffic through more effective air traffic management operations.

Saif Al Suwaidi, Director-General of GCAA, said, "The implementation of the ARP is not only impressive from a technical perspective but to achieve collaboration on such a large scale required teams of project management and technical experts with dedicated representation from the six UAE ANSPs (GCAA, dans, Abu Dhabi ANS, Fujairah, Ras al-Khaimah and Sharjah), fifteen core agencies (including the UAE National Airlines, UAE Airport Authorities, UAE Military, regulatory representation, IATA and the National Centre of Meteorology and Seismology) and the five surrounding international air traffic service providers. I would like to thank all of those involved for their hard work and dedication to getting us to this historic moment in UAE aviation history.

"The implementation of the UAE ARP has demonstrated our capability to safely meet the capacity requirements for the forecasted 2020 air traffic demand and beyond, but also the ability to deliver environmental efficiency and fuel savings exceeding US$15 million to the airlines’ customers within the first year after implementation. These sustainable annual fuel savings further translate to around 100,000 Mt of CO², supporting a significant contribution towards the UAE’s environmental policy and responsibilities towards ‘greener’ aviation."

Ahmed Al Jallaf, Chairman of the Project Steering Group said, "The project directly involved five of the seven emirates within the UAE and to date has required over 120,000 dedicated man-hours to develop an airspace design network capable of managing the future requirements. Multiple Fast Time and Real Time simulations in Italy, UK and in the UAE formed critical activities for the design validation and verification of the revised airspace network. The ARP also requires over 250 air traffic controllers to take simulation and theoretical training, redesign over two hundred instrument flight procedures and incorporate thirty new airways."

In 2012, prior to the launch of the UAE ARP, the GCAA, in collaboration with the local departments of civil aviation and ANSPs, undertook a ‘UAE Airspace Study,’ which, among other recommendations, identified a requirement to ‘develop a comprehensive airspace design that will accommodate transition to a full PBN airspace environment to support the increasing demand’ and this laid the foundations of the UAE ARP.



There are no comments yet for this item

Join the discussion

You can only add a comment when you are logged in. Click here to login