A
team of Columbia University researchers led by an Indian-American
engineer has invented a technology that may double radio frequency data
capacity. The new “full-duplex radio integrated circuits” (ICs) can be
implemented to enable simultaneous transmission and reception at the
same frequency in a wireless radio.
Up
to now, this has been thought to be impossible: transmitters and
receivers either work at different times or at the same time but at
different frequencies.
“This is a game-changer,” said associate professor Harish Krishnaswamy who led the team.
“By
leveraging our new technology, networks can effectively double the
frequency spectrum resources available for devices like smartphones and
tablets,” Krishnaswamy added.
In
the era of Big Data, the current frequency spectrum crisis is one of
the biggest challenges researchers are grappling with and it is clear
that today’s wireless networks will not be able to support tomorrow’s
data deluge.
Today’s
standards support 40 different frequency bands, and there is no space
left at radio frequencies for future expansion. At the same time, the
grand challenge of the next-generation 5G network is to increase the
data capacity by 1,000 times.
So
the ability to have a transmitter and receiver re-use the same
frequency has the potential to immediately double the data capacity of
today’s networks.
Krishnaswamy
noted that other research groups and start-up companies have
demonstrated the theoretical feasibility of simultaneous transmission
and reception at the same frequency, but no one has yet been able to
build tiny nano-scale ICs with this capability.
“Our work is the first to demonstrate an IC that can receive and transmit simultaneously,” he said.
“Doing
this in an IC is critical if we are to have widespread impact and bring
this functionality to hand held devices such as cellular hand-sets,
mobile devices such as tablets for Wi-Fi, and in cellular and Wi-Fi base
stations to support full duplex communications,” Krishnaswamy said.
The researchers presented their work at the International Solid-State Circuits Conference in San Francisco.
Posted by : Gizmeon
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