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U.S. military is on its way to getting its Iron Man

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U.S. military on its way to getting its Iron Man - CNNPolitics.com

(CNN)After an American commando died kicking in a door during a raid in Afghanistan, the top commander of U.S. Special Operations vowed to prevent similar tragedies.

Two years later, the U.S. military is closer than ever to putting Iron Man on the front lines -- or at least something that closely mirrors the superhero's tech-forward suit of armor.

Unlike Hollywood's, the suit won't give its operator the ability to fly, but the real-life body armor may have one leg up on the fictional version: The military's suit will be made of liquid armor that can solidify on command.

Fitted with the protective gear -- the Tactical Assault Light Operator Suit, or TALOS -- troops would be more lethal and better protected, particularly the vulnerable first soldier to breach a compound.

An amalgam of academics, defense industry types and Pentagon personnel are trying to fine-tune the battery-powered exoskeleton, which would reduce strain on the body, provide superior ballistic protection and in-helmet technologies to boost communications and visibility.

"This is a program that we started after we lost an operator on a mission. The first guy coming into a particular building was engaged and unfortunately was mortally wounded. And in the wake of that, we asked ourselves, 'Couldn't we do better in terms of protecting him, of giving him a better advantage when he's at the most vulnerable point that we put our operators?'" said Gen. Joseph Votel, head of U.S. Special Operations Command. Votel took over the TALOS program launched by his predecessor, Adm. William McRaven.

Pentagon spokesman Lt. Cmdr. Matt Allen said the Defense Department does "not know how much TALOS will cost," saying only that the Special Operations Command "has resourced an adequate amount of funds" to develop the suit.

A Defense Tech report cited by former Oklahoma Republican Sen. Tom Coburn in his 2014 "Wastebook" cited an estimated $80 million price.

Behind the scenes with the commander of Special Ops

While many of the suit's technologies already exist, the TALOS researchers are tasked with adapting those technologies into a product that's both advanced and maneuverable.

The goal: "To give that operator the advantage when he is most vulnerable," Votel said.

The TALOS program has churned out several prototypes and is on track to deliver a first-generation suit by August 2018.

Votel said research on the TALOS suit has also been a boon in other areas, helping the military develop improved technologies related to lightweight armor and communications systems.

"It's serving as a spin-off for us," he said.
 
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TALOS prototype

WarriorWeb.png


iron-man.jpg


U.S.-Militarys-Iron-Man-Suit-Prototype-Almost-Ready-For-Battle.jpg



It should look something like this when operational:

f46bbe7c.jpg


d9ed4e57.jpg
 
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Features envisioned
  • Reduced impact of load by intelligent weight distribution throughout the body.
  • Low power requirement.
  • Low suit profile to fit under the existing uniform comfortably.
  • Provide sensor cues to soldiers to reduce injuries.
  • Integrated components to provide joint support where user needs it most.
  • Reapply energy to enhance the efficiency of motion and improve overall metabolics.
  • Remain compliant and flexible, stiffening only when needed
  • Have the suit weigh less than 400 lb (180 kg) and generate 12 kW of power for 12 hours
Although the objective of the program is to incorporate new technologies into a fully powered and integrated suit, components developed under it could be issued individually to troops in the short term to enhance their effectiveness. Non-lethal weapons, new armor materials, more compact communications gear, advanced night vision, and 3-D audio can be used as individual pieces of equipment before they are all put together in one powered exoskeleton.Items developed for TALOS including an increased tactical data storage capability which allows for ten times the capacity of current data storage has transitioned to fulfill an immediate operational requirement, as well as a new armor solution being used for special operations non-standard commercial vehicles. Others systems that will be transitioned include a small, individual soldier SATCOM antenna, an unpowered loadbearing exoskeleton, a powered cooling vest to sustain body temperature, a next generation antenna that includes dynamic tuning, the Future Interoperable Radio Enclosure (FIRE), a tactical radio sleeve for cell phones, lightweight multi-hit ceramic-metallic hybrid armor, and a biosensor-equipped combat shirt that can monitor a soldier’s physiological status.

Challenges
  • Power demand might require a lot of additional weight due to the power source.
Defense industry leaders have expressed skepticism about SOCOM's financial outlook and development schedule for TALOS technologies. Admiral McRaven planned to have portions of a prototype by June 2014, with the first "independently operational combat suit prototype" delivered by July 2018. Science and technology officials believe that technologies envisioned for the suit won't be achievable before around 2026; new technologies that need to be developed include next-generation full-body ballistic armor protection materials, powered exoskeletons for mobility and agility, conformable and wearable antennae and computers, soldier combat-ready displays with non-visual means of information display, power generation and thermal management, and embedded medical monitoring and biomechanical modeling. Components made by different companies will have to be made to work together in one suit. Power generation is the biggest problem, as there is currently no light-weight, low-bulk power generation system able to fuel TALOS components. Funding is also a concern, as SOCOM plans to spend $20 million per year on development to total $80 million, which some see as far too low. In previous endeavors to create "digitized" soldiers such as Land Warrior, the U.S. Army spent $500 million on three major contracts from 1996 to 2006 before its features became reliable

Reference:
TALOS (uniform) - Wikipedia, the free encyclopedia

TALOS prototype

WarriorWeb.png


iron-man.jpg


U.S.-Militarys-Iron-Man-Suit-Prototype-Almost-Ready-For-Battle.jpg



It should look something like this when operational:

f46bbe7c.jpg


d9ed4e57.jpg
Excellent!
-This seems revolutionary product and marks further advancement in soldier defence armor technology.
-It will increase confidence within the operator.
-It may reduce stress and pressure.
-Operational efficiency may increase as well.
-Would be great if having something like WIFI connection systems,so it would help management to monitor each and every solider,thus they are informed for when and where target may approach them or they are at target's range.

regards
 
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exoskeletons- now in which game i have used them?- :undecided:
 
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From post 1
The military's suit will be made of liquid armor that can solidify on command.

Not supported in any of the following, which speaks only of (post 4)

lightweight multi-hit ceramic-metallic hybrid armor
 
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From post 1


Not supported in any of the following, which speaks only of (post 4)

Could it, the two statements, be a reference to Magnetorheological fluids?



This would satisfy both the liquid and ceramic criteria of the armor, though it seems to a longshot due to the weight of such a fluid due to their high density (iron being the culprit) which fails the light-weight requirement.


The other option is a Shear Thickening Fluid:


The two statements, a ceramic-metallic and fluid armor, aren't mutually elusive.
 
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Could it, the two statements, be a reference to Magnetorheological fluids?

The two statements, a ceramic-metallic and fluid armor, aren't mutually elusive.

Mmmmm, maybe. With an exoskeleton weight may be less of an issue than with a mk1 person as wearer. However, digging around on 'ceramic metallic' typically ends you up with something like an Alumina cermic or aluminum nitride (AlN) strike-face plate backed by a plate made e.g of aluminum or steel to absorb the residual kinetic energy of the projectile core.
 
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