- Nokia’s 360 High Gain 5G mmWave technology overcomes mmWave propagation challenges making the spectrum viable for 5G Fixed Wireless Access in-home broadband in dense urban environments.
- The innovative technology combines very high gain with a 360 Field of View, picking up any signal from any direction, and effectively enabling simple installation.
- mmWave will increase 5G FWA capacity by 5-10x.
Fixed Wireless Access broadband devices typically use 4G or
5G mobile signals for high speed home connectivity. Most 5G FWA deployments
today leverage low band (sub 2Ghz) or mid band (2-6 Ghz) radio frequencies, but
as FWA networks develop, additional spectrum will be needed to drive future
growth.
Operators are now looking to increase speeds by using even
more frequencies, notably from the high band spectrum known as mmWave (24 GHz
to 40 GHz). However, higher radio frequencies have propagation challenges as
they are more likely to be impeded by physical obstacles.
Nokia’s 360 High Gain 5G mmWave technology captures a 360
mmWave fingerprint of the indoor environment, picks up direct and reflected
signals from any direction, and adapts to the changing environment, through
advanced analytics.
Kyung Mun, Principal Analyst at Mobile Experts said “Fixed
Wireless Access is on the rise. It will represent almost $15 billion market
cumulatively over the next five years and the mmWave-enabled 5G customer
premise equipment will make up 80% by 2026.”
Sandy Motley, President, Fixed Networks at Nokia said
“Making indoor, self-installable mmWave FWA viable in an urban indoor
environment is crucial for FWA growth. The addition of mmWave to the 5G FWA
market will deliver the 5 to 10 times more capacity that is needed to support
the ever more demanding subscribers and services. I am extremely proud of our
Fixed Network team who have notched up yet another technical first”.
Nokia has validated the 360 High Gain 5G mmWave FWA
technology in its research labs, and technology trials are ongoing in various
urban environments. Volume deployments will start in 2023 and are expected to
focus initially on operators with subscribers in dense urban environments where
high speeds and high capacity is essential for market penetration.