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From: Army Times
The futuristic exosuits being tested by Army researchers won't help soldiers outrun locomotives, and it'll still take more than a single bound to clear a tall building.
But a final prototype of the device, which could cut a wearer's exertion level by 25 percent when carrying a 100-pound load and might let an unburdened soldier run a four-minute mile, could be tested in a realistic setting in less than two years, according to Maj. Christopher Orlowski, who runs the program under the Defense Advanced Research Projects Agency's banner.
DARPA's Warrior Web initiative spans the entire military, but much of the testing for the four prototypes in the program's second phase, and the nine prototypes that made up Phase I, has been hosted by the Soldier Performance and Equipment Advanced Research facility — SPEAR, for short — at Maryland's Aberdeen Proving Ground.
"I'm exposed to a lot of really cool technology that not everyone gets to see," said Mike LaFiandra, chief of the Dismounted Warrior Branch at the Army Research Laboratory. "Big-picture, we're really at an exciting time. The technological advancements that are happening ... I can see 10 years or 15 years from now, this not only being a soldier device, but helping soldiers who are injured, once they get back."
Three years after Warrior Web's inception, soldier-testers are taking the prototypes out of the lab and onto a cross-country course, walking through the woods with an 80-pound pack. While researchers tag along, testers report any perceived benefits from the suit, as well as any problems with comfort or ease of wear — chafing, for example.
Feedback from testers has been positive, DARPA and Army officials said, especially after the soldiers have time to get used to wearing the devices. But comfort isn't the only issue under review, and the data analysis required to gauge the performance of such suits may be a heavier lift than the packs being lugged around the Aberdeen woods.
Rules for what the prototypes must look like are flexible to allow for innovation, but the final version likely will resemble a wet suit, only with a system attached designed to deliver the right force to the right muscle or joint at the right time to ease a soldier's workload.
The Soft Exosuit prototype, designed by a team from the Wyss Institute for
Biologically Inspired Engineering at Harvard, uses a series of pulleys to simulate leg movement. It focuses on supporting the hip and ankle joints; "if you look at the biomechanics of walking," program leader Conor Walsh said, "you see that those two joints are doing most of the work."
Because of the weight and wattage limitations put on the system by DARPA, researchers must find ways to benefit the wearer without excess power.
"We're trying to understand what are the most efficient times in the walking cycle to add energy," Walsh said. "Do we really understand those moments?"
The prototype underwent testing in Aberdeen in early October. The last of the prototypes scheduled for this round of testing, an Arizona State product known as Air Legs that'll visit the lab in either December or January, uses air pressure instead of pulleys.
Makers of Air Legs told CBS News in a Nov. 11 report they had been able to reduce exertion, or "metabolic load," by 10 percent so far, and that reaching the 25 percent threshold would mean a soldier wearing the device could run a mile in four minutes.
Track times aren't part of the DARPA metrics. Walsh said the Harvard group's prototype has "seen muscle activity being reduced in the key areas, and we've seen positive effect in the metabolic areas," but couldn't put a number to the findings.
The difficulty in finding those metabolic-load data points is part of the reason soldiers shouldn't expect a rapid roll-out of these suits, according to the experts.
"The way everyone walks is slightly different," LaFiandra said. "Maybe a previous injury, maybe the amount of experience you have walking with a load. ... There's a tremendous amount of individual variability. Merely putting this device on one or two people, with or without a load, and comparing those numbers, is insufficient."
DARPA's stated goal is to build a device that can be worn under the uniform by 90 percent of the Army, so getting the variations right is critical. And even if the device can adapt to its user, researchers must determine the proper training protocol so the user can adapt to the device.
It's the kind of research that can't be done entirely in university labs.
"Standard college students aren't experienced in carrying 100 pounds in a backpack," LaFiandra said.
Improving performance is only one of five focus areas for the program, according to a 2013 DARPA announcement. The others:
-Advanced controls: Suits that can "function without intervention by the wearer" and correct for when the wearer's stride changes — walking to running or kneeling to crawling, for instance.
-Wearability: Suits that remain lightweight, cool and comfortable despite performance-enhancing add-ons, and can sense and process biometrics without external computer power.
-Safety: Suits that lend stability to joints and help muscles with a soldier's typical burdens, both of which could limit chronic injuries.
-Grab bag: Suits with what DARPA calls "additional assistive wearable technologies," which could be used to aid wearers undergoing rehabilitation or physical therapy, for example, or even help the elderly remain mobile.
All prototypes must tackle at least three focus areas, according to the statement, with "full-suit" entries needing to address all but the final, miscellaneous category. And the competition's end is in sight.
"DARPA plans to test the final prototype in appropriate mission profiles under realistic loads to evaluate performance," Orlowski, the program manager, said in an emailed response to questions. "These tests are currently planned for late 2016."
Once the technology is in place, which soldiers receive the exosuits and how they use them becomes the Army's problem — Orlowski said DARPA will "leave it up to the services to determine specific operational uses." Suits that pass the types of tests done in Aberdeen and meet the program's requirements would benefit most any soldier carrying any gear in any operational environment.
"Twenty or 30 years ago, it may have seemed far-fetched," LaFiandra said. "When I look at the Warrior Web prototypes, I don't think it's far-fetched. I think it's a matter of time."
http://www.armytimes.com/story/military/tech/2014/11/30/exosuit-super-soldier-darpa-aberdeen-army-harvard/19487395/
The futuristic exosuits being tested by Army researchers won't help soldiers outrun locomotives, and it'll still take more than a single bound to clear a tall building.
But a final prototype of the device, which could cut a wearer's exertion level by 25 percent when carrying a 100-pound load and might let an unburdened soldier run a four-minute mile, could be tested in a realistic setting in less than two years, according to Maj. Christopher Orlowski, who runs the program under the Defense Advanced Research Projects Agency's banner.
DARPA's Warrior Web initiative spans the entire military, but much of the testing for the four prototypes in the program's second phase, and the nine prototypes that made up Phase I, has been hosted by the Soldier Performance and Equipment Advanced Research facility — SPEAR, for short — at Maryland's Aberdeen Proving Ground.
"I'm exposed to a lot of really cool technology that not everyone gets to see," said Mike LaFiandra, chief of the Dismounted Warrior Branch at the Army Research Laboratory. "Big-picture, we're really at an exciting time. The technological advancements that are happening ... I can see 10 years or 15 years from now, this not only being a soldier device, but helping soldiers who are injured, once they get back."
Three years after Warrior Web's inception, soldier-testers are taking the prototypes out of the lab and onto a cross-country course, walking through the woods with an 80-pound pack. While researchers tag along, testers report any perceived benefits from the suit, as well as any problems with comfort or ease of wear — chafing, for example.
Feedback from testers has been positive, DARPA and Army officials said, especially after the soldiers have time to get used to wearing the devices. But comfort isn't the only issue under review, and the data analysis required to gauge the performance of such suits may be a heavier lift than the packs being lugged around the Aberdeen woods.
Rules for what the prototypes must look like are flexible to allow for innovation, but the final version likely will resemble a wet suit, only with a system attached designed to deliver the right force to the right muscle or joint at the right time to ease a soldier's workload.
The Soft Exosuit prototype, designed by a team from the Wyss Institute for
Biologically Inspired Engineering at Harvard, uses a series of pulleys to simulate leg movement. It focuses on supporting the hip and ankle joints; "if you look at the biomechanics of walking," program leader Conor Walsh said, "you see that those two joints are doing most of the work."
Because of the weight and wattage limitations put on the system by DARPA, researchers must find ways to benefit the wearer without excess power.
"We're trying to understand what are the most efficient times in the walking cycle to add energy," Walsh said. "Do we really understand those moments?"
The prototype underwent testing in Aberdeen in early October. The last of the prototypes scheduled for this round of testing, an Arizona State product known as Air Legs that'll visit the lab in either December or January, uses air pressure instead of pulleys.
Makers of Air Legs told CBS News in a Nov. 11 report they had been able to reduce exertion, or "metabolic load," by 10 percent so far, and that reaching the 25 percent threshold would mean a soldier wearing the device could run a mile in four minutes.
Track times aren't part of the DARPA metrics. Walsh said the Harvard group's prototype has "seen muscle activity being reduced in the key areas, and we've seen positive effect in the metabolic areas," but couldn't put a number to the findings.
The difficulty in finding those metabolic-load data points is part of the reason soldiers shouldn't expect a rapid roll-out of these suits, according to the experts.
"The way everyone walks is slightly different," LaFiandra said. "Maybe a previous injury, maybe the amount of experience you have walking with a load. ... There's a tremendous amount of individual variability. Merely putting this device on one or two people, with or without a load, and comparing those numbers, is insufficient."
DARPA's stated goal is to build a device that can be worn under the uniform by 90 percent of the Army, so getting the variations right is critical. And even if the device can adapt to its user, researchers must determine the proper training protocol so the user can adapt to the device.
It's the kind of research that can't be done entirely in university labs.
"Standard college students aren't experienced in carrying 100 pounds in a backpack," LaFiandra said.
Improving performance is only one of five focus areas for the program, according to a 2013 DARPA announcement. The others:
-Advanced controls: Suits that can "function without intervention by the wearer" and correct for when the wearer's stride changes — walking to running or kneeling to crawling, for instance.
-Wearability: Suits that remain lightweight, cool and comfortable despite performance-enhancing add-ons, and can sense and process biometrics without external computer power.
-Safety: Suits that lend stability to joints and help muscles with a soldier's typical burdens, both of which could limit chronic injuries.
-Grab bag: Suits with what DARPA calls "additional assistive wearable technologies," which could be used to aid wearers undergoing rehabilitation or physical therapy, for example, or even help the elderly remain mobile.
All prototypes must tackle at least three focus areas, according to the statement, with "full-suit" entries needing to address all but the final, miscellaneous category. And the competition's end is in sight.
"DARPA plans to test the final prototype in appropriate mission profiles under realistic loads to evaluate performance," Orlowski, the program manager, said in an emailed response to questions. "These tests are currently planned for late 2016."
Once the technology is in place, which soldiers receive the exosuits and how they use them becomes the Army's problem — Orlowski said DARPA will "leave it up to the services to determine specific operational uses." Suits that pass the types of tests done in Aberdeen and meet the program's requirements would benefit most any soldier carrying any gear in any operational environment.
"Twenty or 30 years ago, it may have seemed far-fetched," LaFiandra said. "When I look at the Warrior Web prototypes, I don't think it's far-fetched. I think it's a matter of time."
http://www.armytimes.com/story/military/tech/2014/11/30/exosuit-super-soldier-darpa-aberdeen-army-harvard/19487395/
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Posted >1 y ago
Responses: 45
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This would be beneficial to the Light Infantry guys to reduce long term injuries.
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I see many people worried about batteries going out but that can be fixed with a new battery (it may take awhile but at least you can get moving again at some point) but my concern is what happens when a bullet or shrapnel takes out a key component (hydraulics, electronics, etc.) and the whole thing becomes unservicable in the field? Like a said a battery can be replaced but I have a feeling if that thing gets damaged it's done for and then you have a soldier with no exoskeleton and no gear because it's too heavy to carry without it.
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How noisy is it? If it's noisy, might as well be on a dirt bike. Or a horse...
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SGT Edward Valiket
I am not so sure I am in favor of this exosuit stuff, I can see a down side to it also
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CPL Robert Washington
That looks so dangerous. I can't help but think about one those lines being cut and oil/air spraying everywhere. Now, that load is coming down hard.
<----Just Do PT... #Squats
<----Just Do PT... #Squats
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an intriguing evolution to the power-suits in development for carrying and offloading heavy loads. The cynical side of me says this new version wouldn't be used to combat fatigue. The real world deployment would be dump more gear and ammo on the soldiers for the same fatigue levels of today's loads. Garry Owen
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The idea is awesome! One of the benefits would obviously be saving joints and reducing the bearing that a body takes, especially over a 20 year career.
The biggest drawback I see, looking at the design and the possible variances, is how to protect our injured personnel while in the suit. A dismounted IED blast is still a very real threat... The use of combat tourniquets has reduced battlefield deaths exponentially. The design of this system will either need to somehow incorporate built in application points for those tourniquets or they will become useless on the lower extremities. There is no way to quickly apply and appropriately tighten one on the design shown or described. Keep in mind that these systems have he potential of creating more shrapnel and secondary injury as well.
Use guidelines will also have to incorporate strict periods of non-use to avoid muscle wasting or reduction in natural strength secondary to decreased load bearing by the musculoskeletal system of the user.
The biggest drawback I see, looking at the design and the possible variances, is how to protect our injured personnel while in the suit. A dismounted IED blast is still a very real threat... The use of combat tourniquets has reduced battlefield deaths exponentially. The design of this system will either need to somehow incorporate built in application points for those tourniquets or they will become useless on the lower extremities. There is no way to quickly apply and appropriately tighten one on the design shown or described. Keep in mind that these systems have he potential of creating more shrapnel and secondary injury as well.
Use guidelines will also have to incorporate strict periods of non-use to avoid muscle wasting or reduction in natural strength secondary to decreased load bearing by the musculoskeletal system of the user.
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1SG Michael Blount
Capt (Join to see) - Another aspect I see is load alignment. For example, how does one wear his/her sidearm with a suit such as this? To what extent does this suit increase operating temperatures? Will it operate as advertised in the cold? While the idea is an exciting advance, I think there are a lot of questions that need answers before fielding.
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The two main issues I see with this are 1) expense. It always seems the best/most fun toys never get sent to regular units, usually because they come with a rather high price tag. And 2) power. I have a feeling these suits would need a lot of juice, which means a big battery. Even taking into account the suit would negate the added weight of carrying its own extra batteries, that takes up space I would rather fill with other necessities like food, water, or ammo.
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SGT Patrick McCullough
They can work, but I don't think we're their yet. Also, I don't believe joe will take care of this gear. Once they can be trusted with personal hygiene they they can be trusted with tens of thousands of dollars worth of equipment. Until then, keep it on the tier 1 and test phases.
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LTC (Join to see)
The battery life may mitagated in coming years by spray on solor technology. So you may have room for all of the actual essentials.
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Maybe this means my body can go an extra 10-15 years then! Nice exoskeleton road march!
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CSM Michael Lynch
I agree and goes with the question of if recalled from retirement would you serve again, with this equipment I could be 30 again and do it another 30 years.
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Today its exosuits tomorrow its Terminator! This is amazing though its crazy how fast technology is accelerating.
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Will help the "Light" Infantry for load bearing heavier carrying loads. Wish it was available when I was in, maybe have saved my back..
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Giving this article a quick read this device raises a few questions. It mentions a pulley system to simulate leg movement, but does this device use batteries or does it work my mechanical means such as springs on the pulley and cable system? What is the reliability of the device, and what is it's exact weight? The last thing I would want to do is throw this device on top of my load because it broke down half way through a patrol. Personally I think this was a visit from " the good idea fairy" but I'm kind of old fashioned.
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I'd be concerned with mobility. How long does it take a Soldier to go to a kneeling position, prone, and back up? Does this exoskeleton restrict fine movements such as the turning of the foot, think of moving from a neutral stance to a type of fight stance where the back foot is turned slightly to provide stability.
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