Are Pilots Ready for Mobile IFR Clearances?
Mitre's mobile IFR clearance prototype. Image
courtesy of Mitre Corp.
As the proliferation of mobile device usage
in flight operations continues to grow across all segments of aviation, general
aviation pilots could soon have the option of going mobile to obtain instrument
flight rules (IFR) clearances. Engineers at Mitre have been researching and
developing a new mobile IFR clearance prototype to learn more about how this
concept works and its future potential in aviation.
Research around the
mobile IFR clearance concept began in 2014 when Mitre launched a new research
project entitled "Mobile IFR Clearance Delivery at Non-Towered Airports." The
project focuses on creating a mobile device-based process for allowing pilots to
receive electronically generated text-based IFR clearances. Using the FAA's
System Wide Information Management (SWIM) flight data publication service, the
application would allow pilots to retrieve expected IFR departure clearance
information in near real time on their mobile phone or tablet.
According
to the FAA, to operate an aircraft in controlled airspace under IFR, pilots are
required to file an IFR flight plan and receive an appropriate clearance from an
air traffic controller. The voice-based process can become labor intensive,
especially on routes with overly complicated waypoint descriptions or confirming
new unexpected information such as new routing or heading assignments. At
non-towered airports without a remote communications frequency, the process can
be particularly challenging as well.
Paul Diffenderfer, project principal
investigator at Mitre, said the prototype that's been developed for the mobile
IFR concept could make the clearance delivery process more efficient for both
pilots and controllers.
"The vision for the near term is the pilot would
be able to retrieve the clearance using a mobile app and then read it back
verbally to ATC to give ATC confirmation the pilot received it accurately and
would allow ATC to make corrections necessary to make sure it was delivered,"
said Diffenderfer.
Mitre estimates there are an average of 4,000 IFR
flight plans filed daily at non-towered airports, and currently 75% of the U.S.
general aviation pilot population is using a portable or mobile device for
flying that could work within this concept. In the longer term, Diffenderfer
says the team would like to see a little more integration of the concept on the
ATC side.
The mobile IFR clearance research team has already allowed
several pilots to use a prototype app they created to enable the capability.
Among the biggest advantages they found was the ability for the pilot to obtain
a text-based clearance, versus verbally receiving the information from a
controller. Using the app, the pilot would still be required to verbally confirm
the information with the controller, but having the clearance visually
represented in text format can provide some major reduction in the time required
to do so.
"One of the things we're actually hoping to help with also are
situations where pilots would normally depart without picking up their IFR
clearance, because they can be cumbersome. They may depart in marginal VFR
conditions at a non-towered airport and pick up a IFR clearance in the air,
which can add to the workload they're experiencing while flying the aircraft,"
said Kevin Long, project co-PI at Mitre.
In most cases today, when GA
pilots fly out of smaller non-towered airports, they must make time consuming
phone calls or radio communications to obtain oral IFR clearances from a flight
service station or ATC facility servicing the region. Dissenderfer also made it
clear that the app is not designed as a capability that would in any way compete
with the FAA's existing data comm deployment, which currently enables departure
clearances using CPDLC and will eventually enable dynamic domestic en route
capabilities into the future. Data comm is a much more technologically advanced
and proven concept whereas the mobile IFR concept would be a way of speeding up
the distribution IFR expected clearance information.
Mitre's team has
received positive feedback on the concept from the FAA, as well as general
aviation groups such as GAMA, AOPA and the National Air Traffic Controllers
Association (NATCA). The team has been in discussions with the FAA about
conducting a field demonstration at a popular GA airport within the next year.
This field demonstration would use the existing prototype to evaluate the
concept in a real world environment and address any safety or reliability
issues.
"It's something that could be transformational for ATC," said
Dissenderfer. "The technology may not be the challenging part, making it
operational may be the more challenging part, we want to investigate that in the
real world environment."
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