Kaman Demonstrates Cargo Airdrop Flight Tests With Autonomous
Helicopter
Kaman Aerospace Corporation has
proven in recent tests that the unmanned K-MAX helicopter can
resupply troops with cargo airdropped by parachute. The tests add a
new delivery method for the 6,000-pound power lifter, which
Lockheed Martin and Kaman have successfully transformed into an
unmanned aircraft system for autonomous cargo delivery
operations.
At its Bloomfield, CT, facility in late April, Kaman, in
partnership with the U.S. Army’s Natick Soldier Research,
Development and Engineering Center (NSRDEC), conducted 11 cargo
airdrop tests from 300 ft. to 400 ft. above ground level.
Kaman used its four-hook carousel for the drops, and during one
flight, demonstrated four airdrops in a single mission.
Kaman performed the airdrops using the Army’s low cost low
altitude cross parachute, a one-time-use expendable aerodynamic
decelerator that costs about $375. Currently used to airdrop
supplies from manned aircraft in Afghanistan, the parachute is
designed to handle 80 to 600 pound payloads delivered from 150 ft
to 300 ft altitudes above ground level. “These airdrop tests
continue our progress to advance the Unmanned K-MAX helicopter as a
battlefield cargo delivery system,” said Terry Fogarty,
general manager of Unmanned Aircraft Systems Product Group at Kaman
Helicopters. “Airdropping cargo as an option to placing
a sling load on the ground can enhance an unmanned aircraft’s
survivability while delivering critical supplies in combat
environments.”
The Army NSRDEC personnel collaborated in the airdrops.
“The demonstration exceeded our expectations” said
Richard Benney, division leader, Aerial Delivery Equipment and
Systems Division. “This capability will save lives,
allowing us to deliver supplies to our troops using unmanned
helicopters, while also avoiding the threat to the delivery
platform in high-threat areas.”
In January, Kaman and Lockheed
Martin successfully demonstrated to the U.S. Marine Corps at Dugway
Proving Grounds in Utah the capability of the unmanned K-MAX
helicopter to resupply troops by unmanned helicopter at forward
operating bases in Afghanistan. During the demonstration, the
team showed autonomous and remote control sling load delivery over
both line-of-sight and satellite-base beyond-line-of-sight data
links.
Future tests may include the use of single and/or
multiple Joint Precision Airdrop Systems (JPADS) from higher
altitudes. JPADS could be used in higher threat environments to
resupply multiple and dispersed ground forces from one unmanned
K-MAX release point.
Kaman designed the K-MAX helicopter to deliver sling loads up to
6,000 pounds at sea level, and 4,300 pounds at 15,000 ft.
Lockheed Martin’s mission management and control systems give
the K-MAX helicopter unparalleled flight autonomy in remote
environments and over large distances. Autonomous flight will
enable military users to fly the unmanned K-MAX helicopter in day
or night conditions,” said Dan Spoor, Aviation Systems vice
president at Lockheed Martin’s Mission Systems & Sensors
facility in Owego, NY. “Adding an airdrop capability to
the system gives the Army or Marines another resupply
option.”