U.S. Army Armaments Research, Development and Engineering Center Develops Counter UAS Weapons

Picatinny

As the military use of unmanned aircraft systems has increased dramatically, including by entities that may pose a threat to the United States, scientists at Picatinny Arsenal are part of the effort to counter potential threats to U.S. armed forces by such systems.

In many cases, unmanned aircraft are used to gather intelligence with cameras and sensors, thus there is a need for the U.S. Armed Forces to have counter measures in place. Such measures may include jamming the electronics from its ground controller or shooting down the system.

The UAS challenge has grown exponentially in the last decade as the world’s inventory of unmanned aerial systems has grown from approximately 20 system types and 800 aircraft in 1999, to more than 200 system types and approximately 10,000 unmanned aircraft in 2010, said Nancy Elliott, a spokeswoman with the U.S. Army’s Fires Center of Excellence,or FCOE, at Fort Sill, Okla. The center of excellence is the Army service lead to counter unmanned aircraft system.

Elliott also said that as the worldwide proliferation of UAS continues, the FCOE has produced a counter-UAS concept of operations. The document focuses on the low, slow and small UAS threat and will drive future Army efforts to develop solutions and integrate capabilities while contributing to joint efforts to counter the threat, she added.

Since 2010, the U.S. Army Armaments Research, Development and Engineering Center, known as ARDEC, at Picatinny Arsenal, has been positioning itself as a player in the close-in counter UAS mission by participating in an annual experiment to assess the Department of Defense, inter-agency and private industry capabilities in Counter-Unmanned Aircraft Systems, or C-UAS.

In 2012, ARDEC partnered with the Navy’s Office of Strategic Systems Programs and successfully demonstrated the capabilities of fire-control radar to detect, track, and characterize UAS. This information was then used to veer a remote weapon station gimbal at the threat UAS, emulating a potential defeat system.

Given the success in being able to accurately detect and track unmanned systems, in fiscal year 2013, ARDEC directed its focus on integrating the fire control radar with a variety of current weapon systems that could potentially neutralize the UAS threat.

After a System of Systems analysis, the integrated C-UAS System of Systems included three different end-to-end “kill chain” capabilities.

According to ARDEC Project Officer Hannibal People, ARDEC was proven to be successful with its effort in 2013, since the integrated System of Systems showed as a promising solution after defeating the UAS threat at two different test events.

This ability marks the first time a small class UAS has been defeated by a prototype U.S. Army “gun launched” munition using a novel warhead design.

The significance of this accomplishment is the potential to provide a single-shot, low-cost-per-kill weapon system that can function in a multi-role capability for both fixed and mobile Army platforms.

Overall, ARDEC proved the viability of its integrated close-in C-UAS capabilities and solidifying a strong foothold for ARDEC’s future in the mission space, according to People. The full C-UAS kill chain was demonstrated in a ten month span of effort. People said ARDEC is looking to continue to develop this capability to support the Warfighter’s needs.

“We recognize the need to protect dismounted Soldiers as well as combat vehicles within the BCT from inbound UAS threats” said Ted Maciuba, deputy director of the Mounted Requirements Division of the Maneuver Center of Excellence at Fort Benning, Ga.

Photo:  David Castellano, executive director of U.S. Army Armaments Research, Development and Engineering Center’s Weapons and Software Engineering Center, briefs Secretary of the Army John McHugh about ARDEC’s success in successfully defeating UAS

Source: US Army

 

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