WISTON, England, Aug. 23,
2022 /PRNewswire/ -- From its invention and
throughout its evolution, the 'black box' has been crucial for
maintaining and improving commercial aircraft safety since the
1950s. Here, component supply specialists Artemis Aerospace
explores this essential piece of equipment and how it has developed
into the modern technology used by the industry today
Why is it called a black box?
Although commonly
referred to as a 'black box', the device's official name is flight
data recorder (FDR) or cockpit voice recorder (CVR).
Originally, flight recorders consisted of magnetic tape encased
in a fireproof box that was painted black to protect the metal and
prevent rust, hence the terminology 'black box' – an expression
that was made popular by the British during World War II.
However, after FDRs were mandated by the aviation industry in
the 1960s, regulations stipulated that all flight recorders must be
painted in 'international orange' – making them highly visible and
easy to distinguish in the event of an incident.
Early flight recorders
Although the Australian
scientist, David Warren, is credited
with inventing the first flight and voice recorders for the
commercial aviation industry, the earliest known design was made by
François Hussenot and Paul Beaudoin
at the Marignane flight test centre in France in 1939.
The 'Hussenograph' was a photograph-based flight recorder that
used scrolling photographic film and recorded instrument data, such
as altitude and speed. Hussenot's and Beaudouin's legacy lives on
through the Société Française des Instruments de Mesure, which they
founded in 1947 and today forms part of the multi-national
manufacturer of aircraft engines and equipment, Safran group.
During WWII, Len Harrison and
Vic Husband developed a crash and
fire-proof flight recorder for the Ministry of Aircraft Production,
setting the standard for today's modern units.
The first flight recorders for commercial aircraft
Up
until the 1950s, flight recorders were primarily used on military
aircraft. However, in 1953, David
Warren's prototype FDR 'The ARL Flight Memory Unit' was
specifically designed for post-crash investigations of civilian
aircraft and was the first to record voices in the cockpit as well
as instrument readings.
During the same year, Professor James J.
Ryan, who was a professor of mechanical engineering at the
University of Minnesota, invented and
patented the flight recorder in the
United States. However, unlike Warren's invention, Ryan's
didn't include a cockpit voice recorder, which wasn't patented in
the US until 1961 by Edmund A Boniface Jr.
As recordings became digitised, this led to the FDR and CVR
being combined into one unit called the CVDR.
Most commercial jets are now additionally equipped with a QAR
(quick access recorder) meaning data can be easily removed and
accessed quickly in the event of less serious incidents, such as
unplanned deviations, that require further investigation.
Today's systems are digitally controlled and include built-in
test equipment that records how the aircraft is operating. This
means that potential issues can be identified and dealt with before
an incident occurs, making air travel even safer and more efficient
than ever before.
Flight recorders become mandatory
Following the crash
of Trans Australia Airlines Flight 538 in 1960, Australia became the first country in the
world to make cockpit voice recorders mandatory.
In 1964, the United States
passed its first cockpit voice recorder rules requiring all turbine
and piston aircraft with four or more engines to install CVRs by
March 1967.
By 1967, FDRs had become mandatory in many countries. Commercial
aircraft were required to carry FDRs and CVRs housed in bright
orange boxes in the tail of the aircraft, where they would stand
the best chance of survival in the event of a crash.
FDRs are now governed by ICAO (International Civil Aviation
Authority) and the FAA (Federal Aviation Authority) in the United States. These regulators stipulate
the specifications and standards FDRs must meet for aircraft. This
includes FDRs being equipped with an underwater locator beacon that
is automatically activated when an incident occurs.
FDR improvements and updates
Despite the introduction
of the underwater locator beacon to aid FDR recovery following a
crash, the technology was not without its limitations.
Notably, the disappearance of Malaysia Airlines Flight 370 in
March 2014, demonstrated the
restrictions of flight recorder technology, which required physical
possession of the device in order to understand the cause of an
accident.
Unable to locate Flight 370 or its FDR, authorities called for
live streaming of data from the aircraft to the ground. In addition
to this, they requested for the range and battery life on all
underwater locator beacons to be extended and that aircraft be
fitted with a secondary deployable recorder that would be ejected
from the aircraft before impact.
FDRs of the future
Artificial intelligence and
telematics are leading the way in developing the aircraft of the
future, including improving the collection of in-flight data and
voice recordings.
Honeywell's latest flight deck, Anthem, provides anytime,
anywhere data analytics and an engine-out function to automatically
guide pilots to the nearest airport, while assessing factors such
as terrain and wind speed.
The NTSB (National Transport Safety Board) in the US has long
been lobbying for installing cockpit video recorders in new and
in-service commercial jets to improve the quality of information
that can be gathered following an incident. However, this hasn't
been without controversy and ALPA (Air Line Pilots Association) has
expressed concerns regarding privacy.
Whatever the future holds for flight data recorders, they will
continue to be essential to maintaining safe air travel for
all.
www.artemisaerospace.com
Sources
https://www.britannica.com/technology/flight-recorder
https://en.wikipedia.org/wiki/Fran%C3%A7ois_Hussenot
https://en.wikipedia.org/wiki/Flight_recorder
https://www.nytimes.com/2014/04/06/magazine/who-made-that-black-box.html
https://en.wikipedia.org/wiki/Malaysia_Airlines_Flight_370
https://www.flightglobal.com/safety/ntsb-again-calls-for-cockpit-video-recorders/143210.article
Artemis Aerospace offers an innovative approach
to component solutions for the aviation sector. Established in
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service by solving problems and providing a range of realistic
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include component supplies, component repairs, lessor
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With decades of expertise in global aviation logistics, the
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