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What Is Space-Based ADS-B
What Is Space-Based ADS-B
A Look at How Limited Radar Coverage Will Be a Thing of the Past
The January 1, 2020, deadline for aircraft to be equipped with ADS-B Out is quickly approaching. With that, many operators are feeling the pressure to properly equip their aircraft so they may continue flying.
Aircraft operating in airspace requiring a Mode C transponder will need to be ADS-B Out-equipped by January 1, 2020. Additionally, ADS-B Out will be required in class E airspace over the Gulf of Mexico, at and above 3,000 feet MSL, or within 12 nautical miles of the United States coast. The controlling regulations for ADS-B are 14 CFR 91.225 and 91.227.
ADS-B Out Basics
Simply put, ADS-B Out-equipped aircraft automatically broadcast (hence the “B”) information once per second to receiving stations on the ground. This transmitted information includes (but is not limited to) a GPS-derived aircraft position, barometric pressure altitude, and aircraft speed and direction. The complete list of information required to be broadcast can be found in 14 CFR 91.227(d).
Through the magic of ground receiving stations and fiber-optic cables, the broadcasted information is routed through the ATC automation systems and – VOILA! – a “blip” appears on the controller’s display; the aircraft is now part of the next-gen airspace modernization movement.
But how does ATC know that the aircraft is ADS-B Out-equipped and what kind of installation is on board? This is done by including the appropriate flight plan filing codes in Item 10 and Item 18 of FAA Form 7233-4, most commonly known as the “flight plan form” (refer to AIM 5-1-9 for detailed instructions on which codes to include in these item numbers).
But Wait, There’s More!
Space-based ADS-B is a technology developed by a company called Aireon that completely blows the lid off radar coverage as it stands today. Currently, less than 30 percent of the world’s airspace is covered by ground stations. With space-based ADS-B, 100-percent global surveillance of air traffic is now possible. Along with this huge improvement in coverage, the position update rate provided by the space-based system is about six times faster than traditional radar.
Fear not, because space-based ADS-B is not a new mandate. Rather, it uses existing ADS-B Out equipment. Specifically, it requires a Mode-S ADS-B transponder (i.e. an extended squitter on 1090 MHz) and an A1-class or higher antenna system. In fact, the pilot won’t know (or even really need to be aware) that their aircraft’s ADS-B Out signal is being received on the space-based system; it is completely seamless from the pilot’s perspective.
Flow of ADS-B Out Data in Space-Based ADS-B
While ground-based ADS-B is confined to line-of-sight reception between the aircraft and ground receivers, space-based ADS-B does not have this limitation. Aircraft broadcasts are received on the Iridium NEXT constellation satellites hosting the Aireon system. The signal is then relayed to the ground stations, which in turn provide the data to the different air navigation service providers.
This signal relaying allows ADS-B position reports in oceanic and remote areas where it would be difficult or impossible to install ADS-B ground stations. As a result, space-based ADS-B allows for reduced in-flight separation and increased airspace operational efficiency via more direct routing and increased availability of optimal altitudes.
Currently, space-based ADS-B is in use by NAV CANADA and NATS air navigation service providers (ANSPs), which has allowed for a trial period of reduced separation that began earlier this year over the North Atlantic. According to Aireon, during the first month of the trial about 12,000 flights were able to operate at their optimal speeds, resulting in time and/or fuel savings.
Honeywell ADS-B Out solutions are available for the 23+ aircraft types equipped with Honeywell avionics. For additional information, users should contact their preferred service center or Honeywell representative, or email FTS@Honeywell.com.
Program Pilot Ryan Milmoe supports Embraer and Dassault EASy for Honeywell Flight Technical Services. He can be reached via email at Ryan.Milmoe@Honeywell.com
