17
17
0
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/
Posted in these groups: 
Army
Technology
Army Technology
Posted >1 y ago
Responses: 45
9
9
0
Let me know when we get suits like John Steakley's "Armor" or the elite suits in John Ringo's Posleen War series...better yet the tanks and equipment from David Drake's "Hammer's Slammers" series. Otherwise as we add to the ability to carry more weight easier, Soldiers and leaders will just add more items to the packing list and we will be back to square one...and stuck out in the suck with dead batteries and 200 pound rucks, plus the exoskeloton you are signed for...
(9)
(0)
PO3 (Join to see)
Now your talking 1SG James Wise ! I would straight up fake some documents to be young enough to enlist for that! Then again if we have Ringo's armor we might also have the regen treatments and I wouldn't need to fake it.
(1)
(0)
(0)
(0)
7
7
0
Capt Richard I P.
MSG Brad Sand Strongly concur, the book is the best, the movie is garbage.
https://www.rallypoint.com/answers/what-is-the-best-professional-military-fiction
https://www.rallypoint.com/answers/what-is-the-best-professional-military-fiction
What is the best professional military fiction? | RallyPoint
Of the options offered? Warning: mentioning the movies without having read the books is a down-votable offense. Offering an alternative professional military fiction is acceptable, but six answers to a survey is not supportable.
(1)
(0)
LTC Paul Labrador
The movie was entertaining. It's even better when you realize the whole thing is actually a parody....
(0)
(0)
6
6
0
SSG(P) (Join to see)
According to the predictions of the future from Avatar, we will hope in these huge machines and just start to destroy everything. I'll wait for those instead.
(0)
(0)
LTC Paul Labrador
Huge bi-ped robots are big, tall targets that are easily knocked over or disabled (blow off a leg and down it goes). I can't remember if it was on here or another website, but there was actually a good discussion on the practicality of anime style giant robots in warfare.
What I loved about Aliens was that the tech in that movie has been the inspiration for a lot of real world military tech as of late. It was futuristic, but still realistic.
What I loved about Aliens was that the tech in that movie has been the inspiration for a lot of real world military tech as of late. It was futuristic, but still realistic.
(2)
(0)
6
6
0
Slap on a couple of body armor panels add a gas mask to the helmet and here is what your squad will look like in another few years. Just think, back in the 70's this was just a pipe dream but it is coming faster than the flying car from the 50's.
(6)
(0)
(1)
(0)
LTC Paul Labrador
Art imitating life, or life imitating art? More and more we're looking like the Colonial Marines from Aliens....and that was almost 30 years ago.....
(1)
(0)
5
5
0
So here's my only issue with this. How much stuff do you put in your ruck-sack? That's right...all of it. 45-50 lbs is probably what you need, but it ends up weighing 100lbs. If you can put 300lbs in a rucksack now...you get my point. The thing gets loaded with 200lbs of ammunition and the other stuff you carry around with you...then the suit's flux capacitor goes out and you're left with a 300lb paper weight. It has its promise, but we need to be smart about it.
(5)
(0)
SGT Steve Vincent
Sir, with all due respect, a 45 lb. ruck may meet the necessities of the mission for mechanized units, but doesn't even come close to being realistic in light land. My first unit was a LRS detachment in South Korea. We would easily hit 100 lbs. without ammo. See, light Infantry has to carry EVERYTHING they will need for a mission; we don't have the luxury of an IFV or an Abrams to carry all of our gear that may or may not be mission essential. If you want to read something to give you a good perspective on things from outside the mechanized world, I highly suggest Bravo Two Zero. Yes, it is SAS, but they were performing a LRS mission when everything went to pot.
(1)
(0)
COL (Join to see)
SGT Vincent, concur. Having spent 20 years in the military now, one might assume that I've seen light soldiers and worked with them. 100lbs is to be expected. If you can't move out with that, then you aren't in the right business. I was laying out 45 for a 3-5 day operation. If you're carrying everything you own on your back, I'd still say that my point is valid. If a light infantry man could carry 300lbs with this system and he wasn't limited by his chain of command...he would. When the exoskeleton broke down, he'd be screwed. I like the idea, but just like anything else, it needs limits set based on the capability of your average human...not the machine.
(3)
(0)
SGT Steve Vincent
I completely agree that we are many years away from all of this. My guess is we will get these once we make contact with the tech priests on Mars... All kidding aside, I don't trust Army brass to save my life, when it comes to new equipment. The biggest POS I was ever issued was the ACU ruck we got from RFI before deployment. You know what I'm talking about; plastic frame, uncomfortabel, about as easy to hump as an anvil on a rope, and it had way too many straps and whatnot. I think that the absolute best thing they could have done is what my LRS detachment did. We got large frame Alice packs, and sent them to Tactical Tailor to get upgraded. Those things were the bees knees! Hell, I have one that I got from them after I retired, that I use as my SHTF bugout bag. It is pretty much perfect. But, the Army just has to have the newest, shiniest, most expensive crap that comes down the tube. I would love to know what MOS the reviewers for all of that gear from RFI, and the ACUs for that matter, they were from. No way were they Infantry, or any other MOS that required actually using any of that gear. The only items I would have kept were the gloves, and the ACH. Other than that, the rest was garbage, and I replaced all of it before I deployed, or at least as much as I was able to.
(0)
(0)
COL (Join to see)
The MALICE Pack!! Hell yeah. I still have mine. I use it for the 12 milers we have to do. That is still one of my favorite pieces of kit. The lead sales guy over at Tactical Tailor used to be one of my platoon sergeants when I was a Troop Commander. Great company.
(0)
(0)
This is really cool -- we have a few RallyPoint members who are actually assigned at the Army Research Laboratory right now! Maybe these gentlemen would be interested in joining the discussion we are all having here. Hope so!
LTC (Join to see) CPT (Join to see) SFC (Join to see)
https://www.rallypoint.com/units/arl-army-research-laboratory-natick-ma/current
LTC (Join to see) CPT (Join to see) SFC (Join to see)
https://www.rallypoint.com/units/arl-army-research-laboratory-natick-ma/current
Army Research Laboratory (ARL), US Army Research, Development & Engineering Command members...
Find Army Research Laboratory (ARL) members on RallyPoint.
(5)
(0)
5
5
0
And how much extra weight is this adding to what we already have (or "had" in my case)?? If it is only reducing by 25% then I would be leery of it, and here's why. It looks heavy and even if it is not too heavy, the physics of gravity do not change- you are still putting 100% of the load's energy down to your feet! It may feel lighter, but your feet are still feeling the load unless they have some type of rod that goes to the heel of the boot and allows the system to distribute (the load it is bearing) straight to the ground.
(5)
(0)
4
4
0
Yeah i still dont get it. I understand the purpose of it just dont understand how it can work.
(4)
(0)
4
4
0
MSG Brad Sand
Capt Richard I P.
I still like that each Mobile Infantryman was a walking tank, but they were still using typewriters...for those too young to know, a typewriter was precursor to Microsoft word, where if you made an error, you had to start the form all over from the beginning.
I still like that each Mobile Infantryman was a walking tank, but they were still using typewriters...for those too young to know, a typewriter was precursor to Microsoft word, where if you made an error, you had to start the form all over from the beginning.
(1)
(0)
SGT Steve Vincent
MSG Brad Sand You didn't have to necessarily start from the beginning, but you did have to remove the ink roll, replace it with the whiteout roll, type over everything you screwed up, and then reinsert the ink film and continue mission. Of course they ink would smudge, then you'd get pissed and chuck the whole thing down a flight of stairs and almost kill your sister.. Oh? That was just me? Sorry...
(2)
(0)
MSG Brad Sand
SGT Steve Vincent
That did come later...the forms all had carbon paper so you could not make corrections. If you could get everything lined up, spelled correctly and no errors...it was faster. I was not one of those people.
That did come later...the forms all had carbon paper so you could not make corrections. If you could get everything lined up, spelled correctly and no errors...it was faster. I was not one of those people.
(1)
(0)
SGT Steve Vincent
Yeah, kinda hard to be fast when your average manual typewriter had keys with more "trigger squeeze" than a damned revolver!
(0)
(0)
3
3
0
I prefer the Iron Man suit that Tony Stark had. No more back issues with me, buddy!
(3)
(0)
SSG(P) (Join to see)
Question is? Would I be able to run a sub 3 hour marathon time wearing this? If so, I will volunteer for testing.
(0)
(0)
SGT Aras Troy
Another way to think about this technology is as a recruiting tool. Young people are enticed to enlist because the idea of going to Germany or Japan is exciting to a lot of people, even if they may never see those countries in their military careers. Similarly, the idea that you might be able to enlist and get to wear these high tech soldier suits, or at least be a part of that, is exciting, especially for a generation that grew up on video games like Halo. I can already imagine to Go Army commercials with Rangers in exosuits doing superhuman feats.
(0)
(0)
Suspended Profile
How long will the batteries last???
In all seriousness this is really cool. As a "leg" I would have loved to have a little help getting up after taking a knee in full battle-rattle.
In all seriousness this is really cool. As a "leg" I would have loved to have a little help getting up after taking a knee in full battle-rattle.
2
2
0
It looks pretty good and it might help reduce injuries of the back and knees on soldiers. But like many other things, is all about money. Having 2 surgeries on my right knee and a disc replace on my lower back I will love to get my hands on one of this, and do what I once was able to do before my injuries.
(2)
(0)
SSG Gordon Hill
Maybe, but now you are carry the weight of the device plus your required gear for the mission. The weight is still placed on your hips knees and lower back not to mention the weight bearing down on shoulders.
(0)
(0)
2
2
0
In the future, the is only war. this is what we need to be working towards. Take all the master Chief crap, and stormtroopers, and even Starship troopers, and throw them out, because this is the absolute pinnacle of high speed, low drag killy stuff.
(2)
(0)
SFC (Join to see)
I don't know who the character above is either but look at the emblems on his armor, he is obviously from a Germanic nation.
(0)
(0)
SGT Steve Vincent
He is a Space Marine Templar. Able to move faster than you can think, approximately 2.5-3 meters tall, encased in ceramite armour, armed with anything from a boltgun firing mass reactive shells to a plasma cannon. Pretty much the absolute pinnacle of warfare in the 40th millennium. Also, hyper-intelligent, able to survive in pretty much any environment, self heals from any but the most grievous of wounds, over time, and is functionally immortal. Would tear Juan Rico to pieces pretty quickly. And don't get me wrong, I think Starship Troopers was a fantastic book, and something that I highly encouraged all my guys to read, but I think he would get his ass cut down in a heartbeat by a Space Marine, especially a Space Marine from the Deathwatch or Grey Knights. They have the same abilities as other Space Marines, as well as being psychic/telekinetic. And yes, they have nuclear small arms as well...
(0)
(0)
SGT Steve Vincent
Seriously, Google Warhammer 40k Space Marine Codex and commence to reading. Surprised you've never heard of them...
(0)
(0)
2
2
0
I guess my real question with all of this is what happens to all your gear when the batteries run out half way through the mission?
When we are humping it, without support, we are packing all we can carry. With these new exosuits, the gear and ammo you would have left is now there...until the batteries go down, the wire shorts...etc.
Really, I guess it is the same question to the same problem?
When we are humping it, without support, we are packing all we can carry. With these new exosuits, the gear and ammo you would have left is now there...until the batteries go down, the wire shorts...etc.
Really, I guess it is the same question to the same problem?
(2)
(0)
LTC (Join to see)
I share your concern to a point, but the truth is we have worried about batteries for years, and the fears have never really bore out (at least in the units I have been fortunate enough to serve in.
Battery management and planning just becomes part of the equation. Too often, I heard leaders say that they didn't trust their optics because they were afraid the batteries would die; yet these same leaders didn't ensure their soldiers carry a couple of extra 12v or AA batteries. Seriously?
Also, the solar panel chargers and innovative power systems that are available or being tested give promise to power these exosuits. Anything to help us with our load, I am all for. I'd always rather be on the front edge of technology.
Battery management and planning just becomes part of the equation. Too often, I heard leaders say that they didn't trust their optics because they were afraid the batteries would die; yet these same leaders didn't ensure their soldiers carry a couple of extra 12v or AA batteries. Seriously?
Also, the solar panel chargers and innovative power systems that are available or being tested give promise to power these exosuits. Anything to help us with our load, I am all for. I'd always rather be on the front edge of technology.
(1)
(0)
MSG Brad Sand
LTC (Join to see)
Additionally Sir, we will have to ask our grandchildren how these things are working because they are still in the testing stages and I am already retired. :)
Additionally Sir, we will have to ask our grandchildren how these things are working because they are still in the testing stages and I am already retired. :)
(2)
(0)
LTC (Join to see)
But wouldn't you like to have one help you around the house -- it'd be great to help me with snow-blowing or with summer yard work...let the military work out the kinks and then I'll buy a commercial suit from Lowes!
(0)
(0)
2
2
0
Can I decline an issue on these I wouldn't even want to know what the statement of charges would be for this... I would be working for free til my death
(2)
(0)
2
2
0
2
2
0
We've used technology to improve our capabilities since 1775... So I am all for continuing that trend. The biggest task here will be to ensure that we are training to maximize strength and human capability to ensure readiness and effectiveness of the soldier should the technology fail. Let's not lower our physical standards expecting technology to make up for it. Let's maintain and expand the standard so that the technology truly makes us a more formidable fighting force.
(2)
(0)
2
2
0
I've been waiting to see this my entire adult life. I think the biggest holdup has actually just been the battery. They need to make more powerful, longer lasting batteries that do not weigh so much that you can't carry anything but the batteries.
When they do finally get these online, I'll enlist in the Space Marines!
When they do finally get these online, I'll enlist in the Space Marines!
(2)
(0)
1
1
0
Read This Next
-
Ask questionGet expert advice and
tips for your questions. -
Post updatePost pictures, personal updates, plans, or anything you like!
Continue with Facebook 
Continue with Google 
