USAF F-35A - spencerhughes2255
When a single F-35
used sensors, onboard computers and targeting systems to find, track and
destroy two airborne drones at the same time with air-to-air missiles, the
emerging 5th Gen fighter transitioned into a new era for offensive attack
missions.
Last year, an F-35
pilot fired two Advanced Medium-Range Air-to-Air Missiles at maneuvering drones
in the air, bringing synchronized attack to a new level for the aircraft, using
an integrated targeting sensor, called the Electro-Optical Targeting System
(EOTS).
“Two AMRAAMs had multiple targets - to shoot
two airborne targets simultaneously. It was a complex set up that happened over
the Pacific. They were shooting at drones,” Lt. Col. Tucker Hamilton, F-35 Test
Director, Edwards AFB, told reporters last year.
The test, which of course brings substantial
tactical implications, was referenced as a decisive element of the Pentagon’s
now completed multi-year System Development and Demonstration (SDD) test phase
for the F-35.
The SDD phase completion milestone, which
paves the way for accelerated full-rate production of the aircraft, lasted more
than a decade – and included more than 46 weapons tests, Hamilton added.
“We needed to see if it could fly high and
fast pulling 9Gs. We also conducted mission system testing of all the sensors
which allow us to execute a mission. This included countermeasures, data-links,
radar and weapons delivery accuracy to ensure that the F-35 can find, fix and
track targets,” Hamilton said.
The technical advances with weaponry enable
the now deployed F-35s to draw upon an expanded mission set should it engage in
air-to-air combat; Air Force F-35As have recently been deployed near the Korean
peninsula and conducted a series of combat preparation exercises with allies.
Marine Corps Short-Take-Off-and-Vertical-Landing F-35Bs are now deployed to
Japan.
Part of this can naturally be understood as
somewhat of a deterrent against potential enemies likely to contemplate an
air-to-air attack on an F-35. However, an actual air-to-air encounter, or
dogfight, is not likely to be a frequent warzone occurrence should the F-35
wind up in combat.
The F-35 is engineered with an ability to
dogfight and engage in air-to-air combat, yet it was also designed with an
array of next-generation sensors designed to see, detect and destroy enemy
targets from much farther ranges than existing fighter jets can. The concept is
to find, see and eliminate enemy air threats well before the F-35 itself can be
detected.
This is enabled, F-35 developers explain, with
various sensor systems and computer algorithms. The aircrafts Distributed
Aperture System (DAS) places 360-degree cameras around the aircraft to give
pilots a long-range, comprehensive view of the surrounding threat landscape.
DAS sensor data, combined with EOTS targeting information are integrated onto a
single screen for pilots to analyze, through a computer-enabled process
referred to as “sensor fusion.”
Faster decisions, leading to the faster
destruction of enemy targets, are integral to a pilot’s completion of the Air’
Force’s long-discussed OODA-loop phenomenon, wherein pilots seek to quickly
complete a decision-making cycle - Observation, Orientation, Decision, Action –
faster than an enemy fighter. The concept, dating back decades to former Air
Force pilot and theorist John Boyd, has long informed fighter-pilot training
and combat preparation.
If pilots can complete the OODA loop more
quickly than an enemy during an air-to-air combat engagement, described as “getting
inside an enemy’s decision-making process, they can destroy an enemy and
prevail. Faster processing of information, empowering better pilot decisions,
it naturally stands to reason, makes a big difference when it comes to the OODA
loop.
These concepts were heavily emphasized during
SDD phase testing, F-35 pilots said.
“We did 43 days of high-risk counter-air
testing and worked altitude and speed maneuvers at Edwards AFB,” David Nelson,
Lockheed Martin F-35 Test Pilot, Palmdale, said last year.
Subjecting the F-35 to a range of extreme
combat circumstances has also been fundamental to F-35 SDD testing to ensure
the aircraft could operate and fight while freezing or baking, test pilots
said.
“The most surreal was taking the jet into the
climatic chamber and freezing it down to 40 below and baking it up to
120-degrees Fahrenheit - all the while hovering an F-35 inside the hanger,”
Billie Flynn, Lockheed Martin F-35 Test Pilot, said last year.
The final SDD flight occurred 11 April 2018 at
Naval Air Station Patuxent River, Md. when Navy test aircraft CF-2 completed a
mission to collect loads data while carrying external 2,000-pound GBU-31 Joint
Direct Attack Munitions and AIM-9X Sidewinder heat-seeking missiles, an F-35
Joint Program Office statement said.
In fact, as part of the SDD, the F-35 Joint
Strike Fighter fired an AIM-9X Sidewinder infrared-guided air-to-air missile
for the first time over a Pacific Sea Test Range in 2016.
Designed as part of the developmental
trajectory for the emerging F-35, the test-firing of the AIM-9X was intended to
further the missile's ability to fire “off-boresight." This is described
as an ability to target and destroy air to air targets that are not in front of
the aircraft with a direct or immediate line of sight, JPO Spokesman Joe
DellaVedova explained to Warrior Maven last year.
Previous test data and observers have
confirmed the F-35 identified and targeted the drone with its mission systems
sensors, passed the target ‘track’ information to the missile, enabled the
pilot to verify targeting information using the high off-boresight capability
of the helmet-mounted display and launched the AIM-9X from the aircraft to
engage the target drone, a statement from the F-35 JPO said.
The SDD completion also solidified the
operational status of what’s called the “3F” software drop.
Many of the JSF’s combat capabilities are
woven into developmental software increments or “drops,” each designed to
advance the platform’s technical abilities. There are more than 10 million
individual lines of code in the JSF system.
Block 3F increases the weapons delivery
capacity of the JSF as well, giving it the ability to drop a Small Diameter
Bomb, 500-pound JDAM (Joint Direct Attack Munition) and AIM-9X short-range
air-to-air missile, developers explained.
Overall, the extensive SDD testing is intended
to prepare for future iterations of the aircraft, to include the emerging Block
4.
“The test team conducted 6 at-sea detachments
and performed more than 1,500 vertical landing tests on the F-35B variant. The
developmental flight test team completed 183 Weapon Separation Tests; 46
Weapons Delivery Accuracy tests; 33 Mission Effectiveness tests, which included
numerous multi-ship missions of up to eight F-35s against advanced threats,”
the JPO stated.
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This story has been updated since it first appeared last year --
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