The Army is testing and prototyping self-generating "Ironman-like" soldier exoskeletons, designed to massively change combat missions by supporting soldier movement, generating electricity, powering weapons systems, and substantially lowering the weight burden of what troops carry in war.
Energy-harvesting technology can extend mission life for small units or dismounted soldiers on-patrol. The emerging concept, described by Army developers as a technical breakthrough is engineered, not so much for the near-term, but 10 to 20 years down the road.
"The design is for an energy-harvesting exoskeleton to address the needs of dismounted soldiers. The system can derive energy from the motion of the soldier as they are moving around," Dr. Nathan Sharps, mechanical engineer, Army Communications-Electronics Research, Development and Engineering Center (CERDEC) told Warrior Maven in an interview.
The implications of this kind of technology are significant. While exoskeletons have been in development for several years now, the technology consistently confronts the challenge of finding ways to sustain mobile power sources to support and sustain its functionality.
Furthermore, current use of batteries brings significant combat challenges due to difficulty recharging and the massive amount of weight involved in hauling them through combat.
For instance, should a soldier carry a portable 35-pound generator, water, ammunition, weapons, and communications equipment, mission duration and soldier effectiveness is greatly impacted. The Army has been pursuing various efforts to "lighten the load" for soldiers for many years now.
(U.S. Army National Guard photo by Sgt. Brian Calhoun, 108th Public Affairs Detachment)
"The technologies we are developing can produce electricity, which can be stored and used to power batteries. This increases the longevity of a mission, decreases the need for resupply and reduces the logistics trail," Sharps explained.
Sharps further elaborated that during intense combat engagement, casualties often occur during logistics resupply missions.
An added advantage is that, while the technology harvests energy from the motion of soldiers, it also simultaneously eases the strain on their joints and muscles due to its apparatus.
"This decreases the chance of muscular-skeletal injury. We look at the soldier as an individual ecosystem. We're not just looking at what they cannot do right now, but also at what challenges they are going to face 20 years from now," Sharps said.
The emerging system, currently in the early phases of exploration, calls upon a collaborative effort between CERDEC, the Army Research Laboratory and the Army's Natick Soldier Center.
The scientists explain that added electrical energy decreases the number of calories a soldier has to burn.
"When you move, you bounce up and down, and the gait motion is an inverted pendulum. If you lift every step thousands of times, it is a whole lot of energy you are expending," said Juliane Douglas, mechanical engineer, CERDEC, told Warrior Maven.
The Army is currently exploring various configurations for the exoskeleton, some of which include a suspended backpack, which can slide up and down on a spring, having little or no weight impact on the soldier.
(U.S. Air Force photo by Staff Sgt. Dennis J. Henry Jr.)
"In mechanical engineering terms, if you have masses moving together, there is a kinetic energy difference between the two. We have mechanisms which can convert that linear motion into electricity," explained Douglas.
This technical advantage will impact a wide array of emerging systems now being built into exoskeletons. Not surprisingly, many of these rely upon mobile power to operate.
For example, helmets with high-resolution thermal sensors, wearable computers, various kinds of conformal body armor and even many weapons systems are now being built into a range of Ironman-like exoskeletons.
U.S. Special Operations Command's current TALOS effort is working with a wide sphere of industry, military and academic experts on plans to build initial exoskeleton prototypes within the next year or two. This longer-term CERDEC effort is the kind of thing which could easily merge with, or integrate into, some of these exoskeletons now being built.
The project, formally called Tactical Light Operator Suit, or TALOS, is aimed at providing special operators, such as Navy SEALs and Special Forces, with enhanced mobility and protection technologies, a Special Operations Command, or SOCOM, statement said.
The technologies currently being developed include body suit-type exoskeletons, strength and power-increasing systems and additional protection. A SOCOM statement said some of the potential technologies planned for TALOS research and development include advanced armor, command and control computers, power generators, and enhanced mobility exoskeletons.
Also, scientists at the Massachusetts Institute of Technology are developing a next-generation kind of armor called "liquid body armor."
It "transforms from liquid to solid in milliseconds when a magnetic field or electrical current is applied," the Army's website said.
TALOS will have a physiological subsystem that lies against the skin that is embedded with sensors to monitor core body temperature, skin temperature, heart rate, body position and hydration levels, an Army statement also said.Army evaluators have also been assessing a Lockheed-built FORTIS knee-stress-release-device exoskeleton with soldiers at Fort A.P. Hill as part of a focus on fielding new performance enhancing soldier technologies.
FORTIS knee-stress-release-device exoskeleton
Using independent actuators, motors and lightweight conformal structures, lithium ion battery powered FORTIS allows soldiers to carry 180 pounds up five flights of stairs while expending less energy.
FORTIS is built with a conformal upper structure that works on a belt attached to the waist. The belt connects with flexible hip sensors throughout the systems. These sensors tell the computer where the soldier is in space along with the speed and velocity of the movements.
CERDEC developers say their effort is observing and working closely with many of these efforts looking to find exoskeleton technologies able to better protect and enable soldiers in combat.
"What we are doing is designing the conversion technologies to make many of these technologies more effective by storing the energy. We are testing prototypes, and we are able to leverage current exoskeleton work and use it as a platform for our systems," Douglas said.
This article originally appeared on Warrior Maven. Follow @warriormaven1 on Twitter.
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