Landing the Big One

Landing the Big One

Wednesday, September 27, 2017

Innovative Ways to Expand the Radio and Radar Horizon from DARPA

Keep good idea coming (and help design plans for scenarios where satellites might be unavailable) - here is a DARPA test report TALONS Tested on Commissioned U.S. Navy Vessel for First Time:
DARPA’s Towed Airborne Lift of Naval Systems (TALONS) research effort recently demonstrated its prototype of a low-cost, elevated sensor mast aboard a commissioned U.S. Navy vessel for the first time. The crew of USS Zephyr, a 174-foot (53-meter) Cyclone-class patrol coastal ship, evaluated the technology demonstration system over three days near Naval Station Mayport, Florida.

TALONS demonstrated safe and routine operation from the ship’s deck under a variety of sea states and wind conditions without adversely affecting the ship’s operational capability. In tests, the system significantly improved the ship’s ability to detect, track, and classify contacts of interest. It also increased communications range between the ship and remote platforms such as the Zephyr’s rigid hull inflatable boats (RHIBs).

Towed behind boats or ships, TALONS could persistently suspend intelligence, surveillance, reconnaissance (ISR) instruments and communications payloads of up to 150 pounds at altitudes between 500 and 1,500 feet above sea level—many times higher than current ships’ masts—greatly extending the equipment’s range and effectiveness.

“We’re very pleased with the USS Zephyr testing, which showed that a future system based on TALONS could provide operational benefits for even small Navy vessels,” said Scott Littlefield, a program manager in DARPA’s Tactical Technology Office (TTO). “In the next year, we will continue our cooperative relationship with the U.S. Navy and work toward fully automating launch and recovery, which would make the system even easier to use on manned vessels and compatible with unmanned surface vessels.”

“Expectations were really exceeded with the ease of not only deployment, but the recovery of the system,” said Lt. Cmdr. Cameron Ingram, commanding officer of the Zephyr. “Beyond the initial launch, it immediately stabilized, and it had a very smooth transition all the way up to altitude. I was very impressed with how stable it was.”

The TALONS test on USS Zephyr built upon a successful joint test last year with DARPA’s Anti-Submarine Warfare (ASW) Continuous Trail Unmanned Vessel (ACTUV) program. ACTUV’s technology demonstration vessel set sail with TALONS as its first payload as part of open-water testing off the coast of California.

TALONS is part of DARPA’s Phase 1 research for Tern, a joint program between DARPA and the U.S. Navy’s Office of Naval Research (ONR).


That "joint test" with the ACTUV? See below:


DARPA’s Anti-Submarine Warfare (ASW) Continuous Trail Unmanned Vessel (ACTUV) program has developed and built a technology demonstration vessel that is currently undergoing open-water testing off the coast of California and recently set sail with its first payload: a prototype of a low-cost, elevated sensor mast developed through the Agency’s Towed Airborne Lift of Naval Systems (TALONS) research effort.

ACTUV seeks to lay the technical foundation for an entirely new class of ocean-going vessel—one able to traverse thousands of kilometers over the open seas for months at a time, without a single crew member aboard. Potential missions include submarine tracking and countermine activities. Towed behind boats or ships, TALONS could persistently carry intelligence, surveillance, reconnaissance (ISR), and communications payloads of up to 150 pounds between 500 and 1,500 feet in altitude—many times higher than current ships’ masts—and greatly extend the equipment’s range and effectiveness.

The demonstration took place over two days with 90 minutes of flight each day. The TALONS prototype started out from its “nest” installed on the back of the ACTUV vehicle. It then expanded its parachute and rose to an altitude of 1,000 feet, where it tested its onboard sensors and communications equipment. Once the test was complete, the prototype reeled itself in back to the nest. The entire process took place as the ACTUV vehicle maneuvered at operationally realistic speeds.

While aloft, TALONS demonstrated significant improvements to the range of the sensors and radios it carried compared to mounting them directly on a surface vessel. For example, TALONS’ surface-track radar extended its range by 500 percent—six times—compared to its range at sea level. Its electro-optical/infrared scanner doubled its observed discrimination range. The TALONS team plugged in a commercial handheld omnidirectional radio; that radio’s range more than tripled.

“I was delighted to explore the possibility of hosting TALONS on ACTUV and from my perspective, the testing could not have gone better,” said Scott Littlefield, DARPA program manager for ACTUV. “We just started at-sea testing of ACTUV in June, and until now we've been focused on getting the basic ship systems to work. TALONS was our first chance to demonstrate hosting a real payload and showing the versatility of ACTUV to do a wide variety of missions for which it wasn't originally designed.”

“TALONS showed the advantages of using a low-cost add-on elevated sensor to extend the vision and connectivity of a surface asset and ACTUV demonstrated its ability as a flexible and robust payload truck,” said Dan Patt, DARPA program manager for TALONS. “This demonstration was an important milestone in showing how clever use of unmanned systems could cost-effectively provide improved capabilities.”
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1 comment:

  1. Anonymous3:09 PM

    Thanks, this was most interesting.

    ReplyDelete