Can IATA's Crowd Sourcing Tool Help Airlines Avoid
Turbulence?
IATA's Turbulence Aware platform is currently
collecting real-time turbulence information from 10 participating airlines, and
will transition into being fully operational next year. Photo:
IATA
The International Air Transportation Association (IATA) is a
few months away from transitioning from the initial pilot phase for its
Turbulence Aware platform - a cloud database collecting real time turbulence
reports from participating airlines - to full operational deployment, available
to airlines beginning in January.
Turbulence Aware is a tool created by
IATA that uses an algorithm developed by the National Center for Atmospheric
Research (NCAR) capable of collecting turbulence parameters from aircraft
systems and sensors, aggregating that data and making it available in a raw
format to participating airlines. IATA first started working on the system three
years ago and has been using it in an operational phase throughout 2019 with 31
participating airlines, ten of which are currently feeding real-time turbulence
information into it.
"It's a relatively new concept for the industry, and
we want to give airlines time to see how best to use this data operationally,
and discover how to build standard operating procedures around it," Katya
Vashchankova, head of IATA's meteorology program, told Avionics International.
"The initiative started about three years ago when airlines from some of our
working groups asked us to look into developing a platform that would allow them
to share real time turbulence data coming from their flights."
That
capability described by Vashchankova came in the form of the algorithm developed
by NCAR, capable of calculating the turbulence state of the atmospheric
conditions surrounding an airborne aircraft. NCAR's development was initially
funded by the FAA and provides an algorithm that can be integrated into an
aircraft's domain to capture sensor data and then report on the intensity of the
turbulence the aircraft is experiencing. The algorithm uses the data to
calculate an estimate of the atmosphere's turbulence, or energy dissipation rate
(EDR), which is the official International Civil Aviation Organization (ICAO)
metric for measuring turbulence intensity.
EDR is calculated using six
inputs: true airspeed, angle of attack, pitch, pitch rate, roll and vertical
velocity, measured eight times per second. A detailed report about each data
point, including peak EDR values, is then aggregated by a central database
maintained by IATA, using Snowflake Software's Laminar Data private
cloud.
Pictured here is what IATA describes the Turbulence Aware
viewer would look like with more airlines participating. Photo:
IATA
Each report is made anonymous in the cloud to protect the
identity and privacy of participating airlines. The raw data is made available
to other airlines participating in the Turbulence Aware program, to be
integrated into their own individual weather and forecasting
applications.
"It's an open source software that anybody can take and
implement," Vashchankova said. "Those airlines that have the capability can do
that in-house, they can do that at no cost. A number of airlines did it at no
cost at all, some of them put it on the EFB because they had the technical
components. And some others just modified their ACMS system
in-house."
Some of the airlines participating include Aer Lingus, Cathay
Pacific, Delta Airlines and United, among others. The data can be streamed to
the ground using either an aircraft's in-flight connectivity network, or the
Aircraft Communications Addressing and Reporting System (ACARS). EFB application
integration is achieved for aircraft that feature aircraft interface devices,
according to Brent King, head of flight operations for IATA.
A concept of operations view of IATA's Turbulence Aware
platform. Photo: IATA
King said the use of EDR in NCAR's algorithms
is one of the key components of the technology, as it does not vary between
aircraft size or performance capabilities.
"EDR is an absolute value. So
if you put an Airbus A320 in the same piece of airspace as a Boeing 777, one
being a narrow body, the other a wide body, they would both measure the same EDR
value because its atmospheric and not based on individual aircraft response,"
King told Avionics International.
IATA also developed a web-based
turbulence aware viewer, that pilots can use to visualize areas of turbulence as
reports become available. Another capability provided Turbulence Aware is how it
lets airlines know where smoother pockets of air exist. When an aircraft using
the algorithm is not experiencing turbulence, a report is sent out every 15
minutes indicating there is no turbulence within that airspace. King said IATA
expects to collect up to 45 million reports about areas of turbulence and smooth
pockets of air from the 10 airlines participating this year already.
The
overall goal for the Turbulence Aware platform is primarily focused on helping
airlines avoid or at least become more aware of airspace that features
turbulence in near real time. Pilots traditionally rely on live radio reports
from nearby pilots or their own data and flight plans for turbulence. But now,
considering IATA represents a total of 292 airlines globally, as more carriers
opt-in to the program, the organization can build a crowd-sourced picture of
where turbulence exists in near real time.
"January 1 is the date we want
to transition to the full operational phase," King said. "Right now we're just
adding a few additional functionalities such as post flight analysis, before we
transition into the full operational commercial service of Turbulence Aware."
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