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“Part bionic woman, and part Iron Man.” That was how Fox 5 San Diego newscaster described Sgt Terry Hannigan, a Vietnam veteran and paraplegic, after she enrolled in a study through the VA that allowed her to try an experimental exoskeleton that was meant to help her walk again.

Using her body’s center of gravity, Sgt Hannigan controls the exoskeleton in order to stand and walk again.

“My upper body communicates with the computer in the back. You can’t see it but I’m actually shifting a little bit left and right,” Hannigan said.  “I can go up and down steps, simple curbs, walk-up and down ramps…Bionic woman – watch out!”

The device is currently in use in Europe, and will hopefully be approved by the FDA sometime this year for use in physical therapy.

For veterans like Hannigan, this could be the difference between life and death, as she confessed, “I went from being severely depressed, even suicidal to hopeful. I’m doing things that I thought were gone for the rest of my life.”

Drones. These unmanned flying robots – some as large as jumbo jets, others as small as birds – do things straight out of science fiction. Much of what it takes to get these robotic airplanes to fly, sense, and kill has remained secret. But now, with rare access to drone engineers (including an interview with the “Father of the Predator,” Abe Karem), and those who fly them for the US military, NOVA reveals the amazing technologies that make drones so powerful as we see how a remotely-piloted drone strike looks and feels from inside the command center. From cameras that can capture every detail of an entire city at a glance, to swarming robots that can make decisions on their own, to giant air frames that can stay aloft for days on end, drones are changing our relationship to war, surveillance, and each other. And it’s just the beginning. Discover the cutting edge technologies that are propelling us toward a new chapter in aviation history, as NOVA gets ready for “The Rise of the Drones.”

Premieres January 23rd, 9-10 pm ET.

Photo by Sgt. 1st Class Raymond Piper, USA

The XM25 Counter Defilade Target Engagement system, an airburst weapon being developed for the U.S. Army by Heckler & Koch, Alliant Techsystems (ATK), and L-3 Integrated Optical Systems (IOS), is slated to undergo a second forward operational assessment (FOA) early this year.

“The XM25 is the latest weapon designed to address the problem of defeating enemies behind cover,” says Don Linnell, director of business development for L-3 IOS. “It allows a soldier to engage an enemy behind walls, trees, thick hedges, in ditches or in buildings.”

The weapon fires a 25-mm programmable airburst round that can be set to explode alongside, in front of or behind the cover shielding an enemy.

L-3 IOS is producing the laser-rangefinder scope and associated electronics for the XM25′s fire control system, says Linnell, while Heckler & Koch makes the gun and ATK the high explosive, shrapnel-type 25-mm round.

“The soldier uses the laser rangefinder to determine the range to the structure by using a push-button that illuminates the range in the scope,” Linnell points out. “The round can be set to explode on contact or at a preset distance loaded into the weapon by the soldier.”

The weapon’s fire control system uses computer technology, he adds, to determine the distance the 25-mm round has to travel before exploding at a predetermined point.

The XM25 weighs 12 pounds, is 30 inches long and fitted with a pistol grip, and carries a 14-inch long scope on top. The XM25 recently finished 14 months of FOAs in Afghanistan, and use reports and feedback allowed L-3 the opportunity to improve on the operation of the system, Linnell says.

Linnell notes the scope L-3 builds for the system has electronic zoom capability, infrared sensors for night operations, ballistic information preloaded and produces an adjusted aim point based on temperature and where the round is intended to explode.

The laser rangefinder emits a light pulse to the target and the light pulse is reflected back, allowing the system to calculate the distance between the two points. Once the distance is known, the system can then determine how long it will take the round to get to the point where it is to explode.

The 25-mm round made by ATK has a chip-based sensor in it that allows it to track its flight distance and detonate at the preset distance.

Linnell says the Army is expected to decide if the system is ready for low-rate production by September of this year. He notes the contract calls for delivery of between 1,000 and 1,500 XM25 systems by 2015.

About the author: Alan M. Petrillo is a Tucson, Ariz., freelance journalist who works in a wide variety of fields, writing for national and regional magazines and newspapers. He’s also the author of the mystery novel, Full Moon, and several books on historical military small arms.

The U.S. Army Research Laboratory, collaborating with the Counter Explosives Hazards Center and engineers at U.S. Military Academy at West Point, N.Y., are studying whether rats can be trained to detect explosives.

Barron Associates Inc. of Charlottesville, Va., was chosen this past summer to develop and test a low-cost automated system that would be used to train rats to detect mines and IEDs.

Animals have proven capable of detecting explosives in lower concentrations than nonliving physical or chemical systems. While the Army currently uses trained dogs to sniff out explosives, their training is expensive. Finding a less expensive alternative would allow the Army to provide more animals to protect soldiers.

Brian Clark, senior research scientist for Barron Associates, says tens of millions of land mines are buried across the world and there’s a need for an expansion of current detection efforts.

“It’s cheap to deploy a land mine and very expensive to find them and get rid of them safely,” Clark says. “It costs $1 to deploy the mine and $1,000 to remove it.”

Acknowledging that dogs are used to clear mines and IEDs, Clark notes, “We’re expanding that effort by using rats, which have a keen sense of smell like dogs are cheap to obtain and can be trained in parallel with dogs.”

Clark says the rats are trained to recognize and respond to certain odors. “Their responses are largely involuntary, which we will be able to detect through a small sensor pack worn by the animal,” he points out. “The sensor pack takes data in real time, such as the rat’s heart rate and how it is moving, and relays that information to a central station while the animals are looking for odors and responding to them.”

Because of its light weight, a rat can walk on a mine without setting it off, while the software and sensors it wears give the controlling operator the data and coordinates of the mine.

“In response to an explosive odor, an animal’s heart rate or its temperature may increase, or it may move in a certain way, adjust its position or make a sound,” Clark says.

Barron Associates also is training rats to have a voluntary response to an odor, much like a dog might bark or sit when it detects an explosive odor.

“Rats have been trained in the lab to press a lever, and we may be able to train them to vocalize,” Clark says. “They make a sound that’s not heard by humans but can be picked up by sensors.

The first phase of the rat training used laboratory rats weighing about a pound, Clark says. The second phase is using giant African rats weighing up to 6 pounds because they live longer, are more resistant to disease, more robust, and can operate in higher temperatures.

About the author: Alan M. Petrillo is a Tucson, Ariz., freelance journalist who works in a wide variety of fields, writing for national and regional magazines and newspapers. He’s also the author of the mystery novel, Full Moon, and several books on historical military small arms.

A McLean, Va., company has been awarded a Defense Advanced Research Projects Agency (DARPA) contract to develop an unmanned vessel that will quietly track diesel electric submarines. In addition, three other companies shared in securing DARPA contracts to develop new technologies that don’t use sonar to detect submarines in harbors and shallow waters.

DARPA awarded Science Applications International Corp. a $58.5 million contract this past summer to design, build, and test a prototype Anti-Submarine Warfare Continuous Trail Unmanned Vessel (ACTUV). DARPA notes it expects to see operational prototype at-sea testing of the vehicle in mid-2015.

One of the primary goals of the ACTUV program, according to the DARPA Tactical Technology Office, is for the ACTUV system to use “its unique characteristics to employ non-conventional sensor technologies that achieve robust continuous track of the quietest submarine targets over their entire operating envelope.”

The ACTUV is designed to be able to autonomously deploy on missions spanning thousands of kilometers in range over many months of endurance with little or no supervisory control. DARPA points out the vessel will comply with maritime laws and conventions for safe navigation, while conducting “autonomous interactions with an intelligent adversary.”

The Tactical Technology Office notes in a report, “While the ACTUV program is focused on demonstrating the ASW tracking capability in this configuration, the core platform and autonomy technologies are broadly extendable to underpin a wide range of missions and configurations for future unmanned naval vessels.”

Translation: We can use this technology in a lot of other areas and in many different forms.

In a related development, as part of DARPA’s Shallow Water Agile Submarine Hunting program, the agency awarded three contracts for shallow-water search and surveillance capable systems for unmanned air vehicle (UAVs).

Cortana Corp. in Falls Church, Va., was awarded a $496,500 contract, SRC Inc. of North Syracuse, N.Y., a $249,735 contract, and Applied Physical Sciences Corp. of Groton, Conn., a $367,507 contract, to develop non-acoustic, low-power antisubmarine warfare surveillance and cued search capabilities for unmanned aerial vehicles.

In a cued search, data from remote sensors is used to attempt to locate submerged submarines. The DARPA program seeks to develop non-traditional acoustic systems to take advantage of cued searching from UAVs.

DARPA is especially interested in seeing systems developed that are small and lightweight because such systems could more easily be incorporated as payloads on unmanned airborne platforms.

About the author: Alan M. Petrillo is a Tucson, Ariz., freelance writer who works in a wide variety of fields, writing for national and regional magazines and newspapers. He’s also the author of the mystery novel, Full Moon, and several books on historical military small arms.