In the mid-1930s, sci-fi legend Hugo Gernsback predicted that manned flame tanks
would one day become a reality. A decade later, Gernsback would revisit
his prediction with one important twist—the flame tanks of tomorrow
would drive themselves.
Controlled
by wireless signals, the "radio robot flametank" of the future was
featured on the cover of the September 1945 issue of Radio-Craft
magazine. World War II had effectively come to a close the previous
month, but this being the age of deadtree media, the September issue was
likely on newsstands before the Japanese even surrendered.
In the
issue, Gernsback highlighted the most compelling reason to use unmanned
vehicles: Not putting your own troops in harm's way. This, of course,
still holds true today.
During the present war, American and Allied troops have suffered large casualties when operating flame throwers, either the portable type that must be carried on foot, or by flame tank. The reason is that flame throwers have a very short range. The portable flame carrier, or the flame tank, must approach the enemy's stronghold to within one hundred to one hundred fifty feet—often much nearer. This is too close for comfort and if the enemy has hidden snipers or grenades, these can be easily directed on the attacking personnel. For this reason the latter's casualties must always remain high. In the case of a tank, the bazooka type of defense becomes relatively easy to use by the enemy and many tanks are thus put out of action with high casualties.
It was
actually the Germans who pioneered the use of unmanned mini-tanks in
WWII, albeit as sacrificial explosive devices, not flamethrowers. Taking
their cues from much more primitive "land torpedoes" in WWI, the
Germans developed what was called the Goliath Demolition Vehicle.
Controlled
by a cable just under a mile long, versions of the Goliath that appeared
in 1942 were small (about 5 feet long and 1.5 feet tall) and carried
132 pounds of explosives. About 2,500 of these electric Goliaths were
produced during the war, and they were used for both destruction
missions and mine-clearing. A gas-powered Goliath was also produced,
which could carry 220 pounds of explosives. The Nazis churned out even
more of these, deploying about 4,500 by the end of the war.
The Germans
and their real-life robot tanks had one crucial advantage over
Gernsback's fictional flametanks: Their hardwired nature. It's awfully
tough to hack a wired system in the middle of a firefight.
Understandably,
one of the largest issues that concerns modern manufacturers of
unmanned systems is the risk of hacking. What's to stop Al Qaeda from
turning your own unmanned ground vehicles against U.S. forces? In 1945,
Gernsback assured readers that his robot tanks wouldn't be hacked thanks
to the directional nature of the wireless system:
They are relatively cheap in manufacture and do not require extraordinarily heavy armament, except where they face the enemy. They are safe in operation and cannot be interfered with by the enemy because a directive system of ultra-short waves is used. Reflectors on the back of the tanks are so constructed that only microwaves from the rear can effect their operation. Waves coming from the enemy cannot interfere with or operate these tanks.
For
some reason, though, the popular press seems to be largely ignoring the
role of unmanned ground vehicles. With the Congressional mandate that a
full third of military vehicles be unmanned by 2015, and the
development of experimental humanoid battlebots
(which, of course, are only seen as search-and-rescue robots today),
there seem to be plenty of hard questions in our immediate future both
in the air and on land.
Flying
robots have already changed the face of war today. How will armed
autonomous tanks and machine gun equipped landbots do the same tomorrow?
It's a brave new future no matter what—but especially if something as
terrifying as Gernsback's radio robot flametank is waiting for us.
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