As the Navy prepares to deploy its first laser weapon on a ship later this summer, Office of Naval Research (ONR) officials announced June 11 that they have finished awarding contracts to develop a similar weapon to be used on ground vehicles.
The Ground-Based Air Defense Directed Energy On-the-Move program, commonly referred to as GBAD, aims to provide an affordable alternative to traditional firepower to keep enemy unmanned aerial vehicles (UAVs) from tracking and targeting Marines on the ground.
ONR is working with Naval Surface Warfare Center Dahlgren Division and industry partners on the development of GBAD’s components and subsystems, including the laser itself, beam director, batteries, radar, advanced cooling, and communications and command and control.
“We’re confident we can bring together all of these pieces in a package that’s small enough to be carried on light tactical vehicles and powerful enough to counter these threats,” said Brig. Gen. Kevin Killea, vice chief of naval research and commanding general, the Marine Corps Warfighting Laboratory.
Some of the system’s components already have been used in tests to detect and track UAVs of all sizes. Later in the year, researchers will test the entire system against targets using a 10kW laser as a stepping stone to a 30kW laser.
The 30kW system is expected to be ready for field testing in 2016, when the program will begin more complex trials to ensure a seamless process from detection and tracking to firing, all from mobile tactical vehicles.
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The Ground-Based Air Defense Directed Energy On-the-Move program, commonly referred to as GBAD, aims to provide an affordable alternative to traditional firepower to keep enemy unmanned aerial vehicles (UAVs) from tracking and targeting Marines on the ground.
ONR is working with Naval Surface Warfare Center Dahlgren Division and industry partners on the development of GBAD’s components and subsystems, including the laser itself, beam director, batteries, radar, advanced cooling, and communications and command and control.
“We’re confident we can bring together all of these pieces in a package that’s small enough to be carried on light tactical vehicles and powerful enough to counter these threats,” said Brig. Gen. Kevin Killea, vice chief of naval research and commanding general, the Marine Corps Warfighting Laboratory.
Some of the system’s components already have been used in tests to detect and track UAVs of all sizes. Later in the year, researchers will test the entire system against targets using a 10kW laser as a stepping stone to a 30kW laser.
The 30kW system is expected to be ready for field testing in 2016, when the program will begin more complex trials to ensure a seamless process from detection and tracking to firing, all from mobile tactical vehicles.
Read more »
