Artificial Intelligence | News | Insights | AiThority
[bsfp-cryptocurrency style=”widget-18″ align=”marquee” columns=”6″ coins=”selected” coins-count=”6″ coins-selected=”BTC,ETH,XRP,LTC,EOS,ADA,XLM,NEO,LTC,EOS,XEM,DASH,USDT,BNB,QTUM,XVG,ONT,ZEC,STEEM” currency=”USD” title=”Cryptocurrency Widget” show_title=”0″ icon=”” scheme=”light” bs-show-desktop=”1″ bs-show-tablet=”1″ bs-show-phone=”1″ custom-css-class=”” custom-id=”” css=”.vc_custom_1523079266073{margin-bottom: 0px !important;padding-top: 0px !important;padding-bottom: 0px !important;}”]

Ontix Partners With Mavenir To Deliver Open RAN Neutral Host In Building Mobile Connectivity

Mavenir, the Network Software Provider building the future of networks with cloud-native software that runs on any cloud and transforms the way the world connects, announced that Ontix, the UK based next-generation infrastructure-as-a-service provider, will be launching an Open RAN pilot for neutral host in-building connectivity in a central London office building, powered by Mavenir’s MAVair solution.

Recommended AI News: WELL Health Technologies Announces Inclusion In The S&P/TSX Composite Index

The Open RAN platform will be deployed at the Ontix Data Centre in London whilst the small cell units will be deployed at an Ontix’s customer building. The solution would enable Ontix to provide indoor mobile connectivity to typical areas like multi-tenanted offices, shopping malls, stadiums, hospitals, enterprise buildings and hot spots, delivering contiguous coverage and high-speed mobile connectivity to its enterprise customers and end consumers.

Delivering high-quality mobile connectivity indoors poses significant challenges to both operators and building owners, with a range of factors including the number of people in a building, construction materials and remote locations all impacting signal strength. It is imperative that any solution must provide service for all users, irrespective of the carrier they happen to be subscribed to, by using neutral host solutions.

Related Posts
1 of 40,681

Recommended AI News: Liquid And Unitas Global Create The Largest Network Of Interconnected Data Centres In Africa

Ontix and Mavenir will trial the delivery of a neutral host in-building, Open Virtualised Radio Access Network (Open vRAN) to provide enhanced connectivity. This includes the delivery and integration of Open RAN compatible, software upgradable small cells for enhanced in-building coverage and capacity.

“Open RAN is changing the dynamics of how cellular solutions are designed and delivered, and this deployment is at the cutting edge of the technology in the UK,” said Patrick Bradd, Chief Executive Officer at Ontix. “We are excited to be working on this ground-breaking Open RAN pilot to deploy a neutral host architecture to demonstrate its flexibility and how the use of commoditised hardware, can help to create the next generation of in-building networks.”

“Mavenir is delighted to partner with Ontix in addressing this demand from enterprises and consumers for mobile connectivity, especially in areas with poor indoor and in-building coverage. We are confident that using this innovative vRAN solution Ontix will be able to deliver a cost effective and a higher quality network to meet this growing demand,” said Stefano Cantarelli, Chief Marketing Officer at Mavenir.

The MAVair family includes Open vRAN designed with cloud-native virtualisation techniques, enabling the RAN to flex and adapt based on usage and coverage. Mavenir’s vRAN platform provides a fully scalable virtualised network architecture with open standard interfaces, providing neutral host solution providers the option of deploying radio units from different vendors. The vRAN platform uses software running on COTS (commercial off the shelf) hardware that provides cost effectiveness, more flexibility and agility to neutral host solution providers, whilst providing one architecture for many different user scenarios.

Recommended AI News: Healthcare Bluebook Launches Prescription Drug Quality And Cost Navigation

Comments are closed.