U.S.
and allied forces in Iraq and Afghanistan, who face a shortage of wideband
communications, will gain major additional capability pending the successful
launch of the new Wideband Global Satcom spacecraft on its Atlas 5 rocket.
The 13,000-pound
Boeing/U.S. Air Force spacecraft is poised to launch tonight from Cape Canaveral Air Force Station in Florida and will be moved to a geosynchronous orbit
parking spot over the equator where it can support operations in the Iraq and
Afghan theatres.
With solar arrays spanning
157 feet, the spacecraft will provide an enormous increase in communication
services needed by users in the area of responsibility under U.S. Central
Command, headquartered in Tampa, Fla.
The WGS series is replacing
the far less capable Defense Satellite Communications System (DSCS). Each of
the six planned
WGS spacecraft will be based on the Boeing 702 communications satellite
bus.
The sixth and final
spacecraft in the series has been ordered by Australia.
The first of five WGS
spacecraft for the U.S. Defense Dept. was launched from
Cape Canaveral in October 2007. This first spacecraft is providing
communications to all military services operating in the Pacific theatre.
One WGS has the
communications throughput capability of the entire DSCS fleet. In fact, during
operational testing with the first satellite, the government successfully
transmitted a record-breaking 440 megabits-per-second of communications through
the original spacecraft.
The standard WGS
transmission capability will be 2.5-3.3 gigabits per second - 10 times faster
than an individual DSCS.
The new WGS satellites have
a unique frequency conversion capability that will allow users on one frequency
to communicate through the same satellite with a user on a different frequency.
The satellite will operate
in the 500 MHz range of X-band and the 1 GHz range of Ka-band, routing and
cross filtering up to 4.875 GHz of instantaneous bandwidth.
Each spacecraft can serve
nearly 20 independent coverage areas. It can provide up to eight steerable and
shaped X-band spot beams formed by separate transmit/receive phased array
antennas. Along with that, it can project 10 Ka-band beams by independently
steered and diplexed antennas, including three with selectable RF polarization.
The new satellite will be
involved in serving a wide range of users from routine email through the
routing of high
resolution intelligence imagery, video and commands for the piloting of
Predator unmanned aerial vehicles (UAVs).
It will also be useful for
clandestine operations.
Added satcom capability
will be welcome, says U.S. Air Force Capt. Wade H. McGrew, who leads the Space
Applications Course taught at the Special Operations School at Hurlburt Field,
Fla. The school prepares Special Operations personnel for often secret
operations in Iraq and Afghanistan, as well as other areas of the world.
In addition to teaching the
course, McGrew has seen action with the Special Forces himself in Iraq.
"We need larger
amounts of data faster," McGrew says. "As the [capability for] for
more data grows we continue to grow our uses right along with it," he
says.
Capt. McGrew's educational
work in the field and at Hurlburt to broaden the Special Forces' use of space
recently earned him the 2009 National Defense Space Award from the National's
Space Club's Florida Chapter.
The need for even more
bandwidth will become more acute in the future, as the Army fields its Future
Combat System (FCS) designed to link far more vehicles with computer displays.
Much greater use of UAVs and ground-based robotic vehicles will also increase bandwidth
needs that the WGS capabilities will begin to address.
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