So, I’m watching an episode of "Ancient Aliens" on the History Channel — thanks to my DVR, of course — and the episode is discussing superhuman powers and how we currently have many of these technologies in our modern times. Covered the Raytheon XOS 2 and mentioned Lockheed’s version, which this article uses as its primary theme in detailing the HULC.
While this story is dated just over a year ago, further research indicates this equipment was first used this past spring within the military and by actual soldiers. And if lifting 200lbs sounds like it’s not THAT much weight, consider this is as compared to what the average soldier can easily lift from the floor to overhead with a smooth motion and arms extended. Think CrossFit workout and kettlebell swings and that 200lb figure becomes impressive, indeed.
Cool stuff, and a definite measurable advantage to the warfighter. Would LOVE to have one on my next private security detail!
HOOAH!!!
Jason Mick (Blog) – October 26, 2010 10:41 AM
The HULC exoskeleton is almost unnoticeable at first and feels natural for the soldier, yet it massively enhances their physical capabilities. (Source: Lockheed Martin)
The suit allows soldiers to effortlessly carry more defensive or offensive tools, like bulletproof steel shields, heavier guns, or extra body armor. (Source: Lockheed Martin)
Soldiers can lift up to 200 pounds with the HULC. (Source: Lockheed Martin)
Bring on the mech wars
For those yearning for some good old fashioned mech wars, your hopes may be realized on a battlefront in the near future.
To complement combat airships, lasers, drones, and a variety of other exotic "future weapons", Lockheed Martin is looking to outfit soldiers with powerful exoskeletons that would greatly amplify their physical movements and turn them into resilient angels of death.
Dubbed the Human Universal Load Carrier, or HULC, Lockheed Martin has supplemented a $1.1M USD contract with much private investment to try to sell the military on the idea of combat exoskeletons.
Lockheed Martin recently shared details on the progress of the suit with Wired. The HULC in its current form weighs 82 lbs, but when the solider straps in, they feel virtually nothing. It could in theory support an impressive array of strap-on combat accessories such as missile launchers or a massive 94-pound black steel shield capable of stopping most munitions dead in their tracks (Lockheed Martin has only demonstrated non-weapon accessories like the shield, but said that it should be capable of being weaponized).
The agile outfit is fully "ruggedized" and waterproof. It can withstand billowing sand and dust, as is commonly present in the Middle East. Its lithium-ion battery pack can power a 20 km (12.5 mile) march on a single charge. The suit can travel at 7 miles per hour, faster than a brisk walk, and fast enough to keep up with a slow-traveling tank (tanks top out typically at around 40 mph, but frequently travel much slower when performing tactical or support maneuvers).
The suit allows the soldier to effortlessly lift 200 lb — far more than an average private sans suit could ever dream of. And the battery pack weighs only 18 lbs, is rechargeable via Humvee electrical connections, and holds charge for three to four days.
The suit is amazingly flexible allowing you to stand up from a prone or kneeling position rapidly, and without putting almost any weight on the soldier’s joints.
Going ahead Lockheed Martin wants to further seal off the unit’s hydraulic and electronic systems from the elements and from undesirable electric emissions, which could give away your location.
In the spring of 2011, the exoskeleton will enjoy its first tests by real soldiers in the U.S. military
. And in 2012 Lockheed Martin will test the exosuits in Afghanistan. The feedback from those tests will probably determine whether the U.S. Armed Forces get serious about investing in the technology.
Lockheed’s long-time rival Raytheon is making a competitive model dubbed the XOS 2.
Regardless of which model triumphs, the U.S. Military would be wise to promote this technology. After all, soldiers are soft and organic, and thus vulnerable to improvised explosive devices and armor-piercing rounds. It’s hard to carry enough body armor to change that fact. An exoskeleton could not only provide greater protection against these threats, but it could prove a fearsome offensive weapon. The sight of a legion of heavily armored mech soldiers supported by tanks charging toward them would be enough to send most enemies running from the battlefield.
