Not exact matches
To build nationwide
5G, they either have to kick current customers off LTE, which would take years, or use a type of spectrum (millimeter wave) that can only carry a signal 2,000 feet from a
cell site — versus multiple miles for other spectrum — making it nearly impossible for either of them to create a truly nationwide
5G network quickly.
5G and small
cells go hand in hand since the technical standards of the next - generation
networks will support many more connection points with fast backbone connections but lower - powered radio signals.
In fact, it is only accelerating, thanks to trillion - dollar developments like the Internet of Things and
5G wireless
networking (those
cell towers need an even faster backhaul to the regular internet, which is the fiber optics come in).
The 4G LTE
networks of today support a maximum of eight transmitters and four receivers, but
5G cell towers can theoretically support dozens.
That's why
5G networks will likely augment traditional cellular towers with another new technology, called small
cells.
Millimeter - wave spectrum will be the magic that will make
5G networks so much faster than existing LTE
networks, but it will have to be paired with lower - band spectrum (like that used by existing
cell networks) to make a truly nationwide
5G network.
The
5G that AT&T is rolling out this year will only use millimeter - wave spectrum, which means that it will function very differently to our current LTE
cell networks.
Noida, Uttar Pradesh About Blog Wireless and
Networking World is a forum for Communication professionals, providing latest information on happenings and trends in these areas.It includes LTE, Wi - MAX, Wi - Fi, Small
Cells, RF Engineering,
5G, IoT and other advanced topics.
Cellular densification arising from the
5G network is expected to grow at a compound annual rate of 36 percent, resulting in 8.5 million small -
cell sites (antenna equipment used to transmit
cell phone signals) by 2025, according to Rethink Technology Research.
The
5G network hardware stealthily blends into surroundings as each small -
cell device, varying in size from the dimensions of a bread box to 100 feet in height, extends
network coverage by a quarter of a mile.