In April Verizon said its top priority for 2021 is to prepare its network for its C-band spectrum, and it has begun installing C-band equipment from Ericsson and Samsung in its Ultra Wideband network — this is the company’s 5G network built mostly on mmWave spectrum in urban metros to date. But Verizon will boost Ultra Wideband with its new C-band spectrum as quickly as it can.To get more ericsson news, you can visit shine news official website.
Under this new $8.3 billion agreement, Verizon will deploy Ericsson's 5G solutions in its Ultra Wideband 5G network. Those solutions include Ericsson's Radio system portfolio, Massive MIMO, Ericsson Spectrum Sharing and Ericsson Cloud RAN.
In 2020, Verizon was the first communications service provider to receive a commercial 5G mmWave Street Macro base station from Ericsson's new factory in Lewisville, Texas. And that technology is also part of the new contract.
Ericsson said its solutions support both Verizon’s 5G standalone (SA) and non-standalone strategies. Both Ericsson and Verizon declined to comment on the status of Verizon’s SA core network.
A year ago, Verizon sounded as if it was about ready to shift to a 5G SA core. But then it began hedging on its timeline for that shift. AT&T also kept pushing out its timeline for its 5G SA core.
In a big announcement timed to coincide with Mobile World Congress 2021, AT&T recently said it was putting its 5G SA core on Microsoft Azure’s cloud. Dish Network has also said that it will run its core and RAN functions on a public cloud — AWS in its case.
The fifth generation (5G) of cellular networks has given us enhanced connectivity, low latency and greater bandwidth to usher in unparalleled opportunities for industries and society. It’s the platform that’s enabling Communication Service Providers (CPSs) to thrive and reach new milestones in an increasingly competitive ecosystem.
In 2021 more service providers launched and switched on 5G networks, but many are still waiting to see its true potential so they can grow their revenue with agility and speed. While every CSP’s strategy is unique, the evolution from 4G to 5G networks requires a transformative point of view. It’s not enough to just replicate a 4G network with newer technology. The build out of 5G is fundamentally different to how networks have traditionally been built with previous generations.
In order to get the full power of 5G and deliver on its promises, CSPs need to deploy and adopt 5G Core into their networks. Designed to handle all network demands, 5G Core performs many of the central operations in a mobile network. It’s where all the magic happens that will give CSPs the right capabilities to scale up or down their operations. Without a 5G Core, advanced 5G use cases such as multiplayer augmented reality gaming or virtual factory maintenance, will never materialize.
.Today, many CSPs begin their 5G journey with Non-Standalone (NSA) architecture, which uses existing 4G LTE radio access to support new 5G services. However, this approach has made it challenging to unlock 5G’s full potential because 4G network architecture is not able to withstand the expectations of mobile networks needed to meet the requirements from new applications emerging today with enterprise and industry business opportunities . While the technology still plays a critical role in our day-to-day lives, it does come with certain limitations for CSPs looking to step into the future they were promised with 5G.
Transitioning to a 5G Standalone (SA) network not only evolves the existing network in place today, but it also upgrades it so transformative elements can be introduced for new business opportunities or vertical needs. The technology allows service providers to simplify their planning and execution process, and connect to 5G quicker.
By | buzai232 |
Added | Jan 11 '22, 07:41PM |
The Wall