ROBOTS, DROIDS & DRONES: Navy and Marine Corps Unmanned Vision; Mixed Manned, Unmanned Naval Exercise

DEFENSE.

Navy, Marines’ Unmanned Vision.

The MQ-9 Reaper is an armed, multi-mission, medium-altitude, long-endurance unmanned aircraft, one of several unmanned systems Navy leaders say help extend the reach and capabilities of the fleet. (U.S. AIR FORCE photo by Sgt. Dennis J. Henry Jr).

The top commanders of the U.S. Navy and Marine Corps say the increased deployment of unmanned air and maritime systems will help extend the reach and intelligence capabilities of the Fleet and the Force.

It could also sow uncertainty among peer competitors, like China and Russia, according to SEAPOWER magazine.

The Chief of Naval Operations Admiral Mike Gilday told a recent House Armed Services Committee hearing that in the future, the Navy will field the Fleet in a distributed manner. And that, he said, “will allow us to come at — let’s say China or Russia — at many vectors across many domains.” In other words, the increased number of ships — some with a crew and some being controlled remotely or running autonomously — would force adversaries to spread their resources and be on guard everywhere, all the time.

When the Navy and Marine Corps released their Unmanned Campaign Plan in March, some in Congress said it was light on details. At the June 14 Armed Services hearing, Chairman Adam Smith (D-Washington) asked Gilday and Marine Corps Commandant General David Berger to explain how unmanned systems will help them perform their mission.

With unmanned aircraft systems (UAS), Berger said, the the Marines expect help with intelligence collection, logistics and and command and control, in short, he said the ability to move information laterally within Marine units and back to the Joint Force commander.

The Marines are transitioning to a mixed capability of long-range ship and ground-based unmanned aerial systems (UAS) including the MQ-9 Reaper, (see photo above). “This will significantly expand our ISR (intelligence, surveillance and reconnaissance) capabilities and will enable us to better support the Fleet and the joint force operational commander, including anti-submarine warfare.”

Gilday noted that the Navy had recently completed its largest unmanned exercise on the West Coast, with unmanned undersea, surface and air systems operating with manned surface ships. The Navy also had the first successful refueling of an F/A-18 Super Hornet from an MQ-25 drone. The Navy also saw the third voyage of more than 4,000-miles — from the Gulf Coast, through the Panama Canal to California — by an unmanned surface vessel operating autonomously 98 percent of the time.

To read the whole story, click here.

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After Action Report.

Speaking of that big West Coast exercise with both manned and unmanned vessels and aircraft, the Navy has concluded its after-action review, according to the Office of Naval Research.

Led by the U.S. Pacific Fleet, Unmanned Integrated Battle Problem 21 (IBP21), was held from April 19-26 in San Diego, California.

During IBP21, numerous multi-domain unmanned platforms — including unmanned aerial, surface and underwater vehicles (UAVs, USVs and UUVs) — were put into real-world, “blue-water” environments, working in sync with manned platforms in actual combat drills designed to support Pacific Fleet objectives in the Indo-Pacific region.

“Large-scale exercises such as IBP21 are critical for the Navy and Marine Corps to make the transition to a hybrid manned-unmanned force in the future,” the Chief of Naval Research, Rear Admiral Lorin Selby said. “These demonstrations ensure what works in theory will work in the fleet—in an environment that is messier, dirtier and wetter than a lab. They also allow us to get valuable feedback from the Sailors and Marines themselves,” he added.

The purpose of IBP21 was to explore a variety of questions about how unmanned systems can be incorporated into fleet operations. For example: How can unmanned and manned systems work together effectively in diverse warfighting scenarios? How can you integrate unmanned systems seamlessly into existing platforms? What is the best way to train Sailors and Marines to use such complex, evolving technologies?

So far, according to SEAPOWER, major takeaways from IBP21 include:

Unmanned systems are resilient, enable better beyond-line-of-sight targeting, and improve battlespace awareness and command and control.

They also provide significant advantages in ISR (intelligence, surveillance, reconnaissance) and Targeting and Fires capabilities, without creating additional risks to the mission or warfighters. The result—more effective offensive and defensive postures.

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INDUSTRY

From General Atomics

General Atomics Aeronautical Systems Inc. completed initial flight tests of a new brushless generator system in May on a company-owned Gray Eagle Extended Range (GE-ER) Unmanned Aircraft System (UAS).

The tests at Yuma Proving Grounds in Arizonna, mark an important milestone towards upgrading the GE-ER fleet with generators that will significantly improve reliability and dramatically reduce platform sustainment costs. The new generator also provides electrical power to support expanding mission scenarios for the UAS.

The new generator performed aircraft ground and flight tests for over 44 hours testing up to maximum electrical power output across the full GE-ER flight envelope and at engine power levels from idle up to maximum rated thrust.

The brushless generator is designed as a drop-in replacement for the current alternator to help make the upgrade seamless for maintainers in the field. The brushless design eliminates scheduled depot service for brush replacement every 300 hours on the current alternator, reducing depot, shipping, and spare inventory costs. The new generator system can provide up to 14 kilowatts of power – more than a 50 percent increase over current system – and provide up to 10 kilowatts for sensors and payloads required for flight in a Multi-Domain Operations environment.

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From Schiebel

Austrian drone manufactuer, Schiebel, says the Finnish Border Guard is once again operating its CAMCOPTER S-100 for icoast guard functions in the Baltic Sea.

The Remotely Piloted Aircraft System (RPAS) service is offered by the European Maritime Safety Agency (EMSA).
Based at a coast guard station in Hanko, Finland, the CAMCOPTER S-100 is carrying out Coast Guard functions, such as
maritime border surveillance, search and rescue, monitoring and surveillance, ship and port security, vessel traffic monitoring, environmental protection and response, ship casualty assistance — as well as accident and disaster response.

Information collected in the Baltic Sea from the on-board RPAS system is shared with multiple Member States, allowing for a common maritime picture and more comprehensive coordination. The operations will continue until end of July.

Two other CAMCOPTER S-100 operations for EMSA are being carried out in Estonia and Romania for maritime surveillance.