Already deployed throughout the busiest, iconic areas in central London, Ruckus SmartCell 8800 have initially been deployed to provide free, fast and reliable wi-fi.
Within a single, low-profile design, the SmartCell 8800 is the first carrier-grade, modular multi-radio system to integrate patented adaptive antenna array technology supporting multiple licensed and unlicensed radio technologies including: high-speed dual-band 802.11n Wi-Fi, small cell 3G/4G radios and 5GHz wireless backhaul. This gives Telefónica UK the flexibility to easily and economically offer high-speed Wi-Fi and cellular services in specific locations when needed.
"For O2, it's all about us providing customers with fast and reliable connectivity where they need it," said Derek McManus, chief operating officer for Telefónica UK. "Our vision is for Wi-Fi to be simply another access layer to our mobile core. Customers don't really care about the underlying technology; they care about getting connected, fast and reliably. The introduction of small cells helps us to support these requirements and completely complements our mobile strategy by letting us push capacity closer to users in locations where it makes the most sense."
"In telecoms there is now a mad race to the lamppost, and the first one there wins," said Selina Lo, president and CEO of Ruckus Wireless. "A big barrier in small cell deployment is simply securing the physical locations with the requisite power and backhaul to support small cells. Once physical assets secured, it becomes important for operators to exploit them with as much technology as they can. This means multi-function, carrier-grade products that are simple deploy, unobtrusive and massively scalable. SmartCell is one of those products and O2 is one of those operators taking a lead in this race."
"A major challenge with small cell deployments is how to reliably backhaul traffic from potentially thousands of small cell nodes without breaking the bank," said Robert Joyce, chief radio engineer at Telefónica UK.
Telefónica UK effectively eliminates this problem by meshing traffic over highly reliable 5GHz Wi-Fi mesh links between nodes using Ruckus Smart Mesh technology. Smart Mesh uses advanced self-organising network principles with Ruckus-patented adaptive antenna arrays (BeamFlex) and predictive channel management techniques (ChannelFly). Combined these technologies create highly resilient, high-speed Wi-Fi mesh backbone links between nodes that automatically adapt to changes in environmental conditions.
Thought by many to not be possible, Smart Mesh has demonstrated to deliver reliable backhaul for licensed cellular and unlicensed Wi-Fi traffic in both line of sight and non-line of site environments. "Ruckus Smart Mesh technology is proving to offer a cost-effective, reliable and flexible alternative to conventional approaches," said Joyce. "With Smart Mesh, we are running fiber to just one of every five nodes. This has proven to be a huge benefit in reducing capital and operational expense with the added bonus of reducing the time to market."
Small cells represent a new architectural approach for injecting much needed capacity into service provider networks. Small cells are miniature base stations that combine licensed and unlicensed radio technology with wireless backhaul to deliver lower powered wireless signals much closer to mobile users. This results in better signal coverage, improved voice quality and higher data performance.
Small cells enable operators to provide a premium quality mobile signal where it was never previously economic, such as indoor environments and remote outdoor locations. They also enable operators to meet the burgeoning demand for mobile data, by multiplying the data capacity of the macro network at a fraction of the cost.
