Posted by: aviatnetworks | February 1, 2013

Big Promise for Small Cell Mobile Backhaul

Small cell backhaul spectrum considerations

Spectrum above 6 GHz is much more available for small cell backhaul than spectrum below 6 GHz.

A different solution to handle the burgeoning demand for mobile broadband capacity will be needed. More spectrum coupled with more spectral efficiency will not be sufficient. A clear solution is more sites, but deploying more macro-sites in urban and dense urban areas (where most of the traffic will be needed) will not be feasible.

Small cells promise a new “underlay” of outdoor and indoor, low power micro-cells that are deployed on public and private infrastructure within the urban clutter, are seen as seen as a likely solution. Sites being considered include:

  • Pole tops (e.g., such as street lighting, traffic light systems, electric utility poles, telco poles)
  • Bus stops
  • Building walls
  • Building rooftops

These new sites will need to be compact, simple to install, energy efficient and incorporate an organically scalable and tightly integrated backhaul solution. As a result, there will be many more sites—some projections estimate that up to 10 small cells will be deployed for every macro-site. Small cells hold out the promise of great gains for the end users but massive challenges for the operators.

Small cell deployments so far have mainly been concentrated in Europe (3G) and the USA (LTE). 3G small cells may also be deployed in other regions as a means to avoid the difficulties in obtaining planning approval for larger macro-cell sites.

It’s Still Early
Today, as far as wireless small cell backhaul (SCBH) solutions are concerned, there is evidence of product immaturity and hyperactivity in equal measure.

There is profusion of aggressively hyped solutions, including many that are a rehashing existing/niche solutions and at the opposite extreme some very new and unproven technologies. In practice, these solutions are jockeying for position while operators grapple to understand the formidable planning and infrastructure challenges being thrown up by their small cell ambitions. It is apparent that few appear that they will fully satisfy the anticipated and emerging requirements in terms of performance (i.e., capacity, latency, availability), size/shape, ease of deployment and most importantly, total cost of ownership. For the complete article, download the PDF.

Stuart D. Little
Director, Product Marketing
Aviat Networks


Responses

  1. Small cells present another technique to augment network capacity, either by using the same spectrum (coordinated with macro-cells) or different spectrum (uncoordinated with macro-cells). The former requires no additional spectrum while the latter can be implemented using low cost spectrum in higher frequency bands (for example, spectrum in 2.6 GHz band is priced as low $0.03 per MHz-PoP in major Western European countries).


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