WASHINGTON – The U.S. Navy and General Atomics in November used sonobuoys dropped from an MQ-9A Block V Reaper to track a simulated submarine target on a U.S. Navy Pacific test range, in what the contractor says is the first time an aerial drone has deployed a self-contained anti-submarine warfare system.

The Reaper deployed a mix of 10 sonobuoys – deployed to measure water conditions and monitor for targets – then received and transmitted the data in real time to a monitoring station at Laguna Flight Operations Facility located at Yuma Proving Ground in Arizona.

The test was part of the development of the MQ-9B SeaGuardian drone, which is part of a research and development project in conjunction with the Navy’s Naval Air Systems Command. If the Navy can make this concept of operations work, it has the potential to significantly lower the cost of submarine hunting and free up larger, more expensive manned sub-hunting platforms such as the P-8A Poseidon, to act as a command-and-control platform.

The Reaper managed to acquire and track an expendable anti-submarine warfare training target for three hours using the General Dynamics UYS-505 acoustic processing software.

According to a General Atomics readout of the test, the MQ-9B SeaGuardian will have four wing stations available to carry up to four sonobuoy dispenser system pods, packing up to 40 ‘A’ size or 80 ‘G’ size sonobuoys.

“This demonstration is a first for airborne ASW. The successful completion of this testing paves the way for future development of more Anti-Submarine Warfare capabilities from our MQ-9s,” said General Atomics Aeronautical Systems President David Alexander in a statement. “We look forward to continuing collaboration with the U.S. Navy as they explore innovative options for distributed maritime operations in the undersea domain.”

Doing airborne anti-submarine warfare is an all-around cheaper way to do ASW than with multiple P-8As, which cost much more per flight hour, said Bryan Clark, a retired submarine officer and senior fellow at Hudson Institute who co-authored a recent ASW study that looked at this concept.