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ip.access to Develop Next Generation IoT Small Cells on the Path to 5G in Collaboration with Intel

London, UK, Feb. 22, 2017 – 

ip.access has today announced its strategic vision for the development of a new generation of multi-purpose small cells integrating IoT functionality with LTE access, as part of its Viper2020™ platform. Building on the market success of its award-winning Viper™ product platform, using the Intel Transcede™ T3K solutions for LTE access, the company is integrating NB-IoT (Narrow Band IoT) and Cat-M1 (Category M1) capability into the product family within its overall vision. The building blocks of the Viper™ platform, in terms of virtualization, PaaS, resource sharing and network slicing are key elements of the 5G future.

Many in the industry dismiss the need for small cells in IoT, given the improved link budget for NB-IoT and the consequent ability for macro cells to reach further indoors. ip.access maintains that radio coverage is always statistical, and a small cell layer for IoT is essential to provide the quality and continuity of coverage that all IoT applications rely on to make money.

As ip.access' CTO, Nick Johnson, commented, "While the coverage of macro networks may be improved for NB-IoT, it will never be perfect. And with the wider bandwidth required by Cat-M1 devices, the coverage improvement will be even less. The industry will rely on a mix of Cat-M1 for wearables, medical and assisted living applications, and NB-IoT for low data rate sensors of many types. Furthermore, the IoT devices may not be as mobile as today's smartphones, and so will be even more vulnerable to network fades and not-spots. Small cell connectivity is one of the essential foundational components for the IoT industry as it scales."

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