This post is by Ronny Haraldsvik SVP/CMO of SpiderCloud

This post is by Ronny Haraldsvik SVP/CMO of SpiderCloud

Deploying dense and scalable indoor small cell systems is not straightforward, especially when it comes do serving large enterprise customers. Our experience shows the indoor RF environment gets increasingly complex and challenging as the density of the deployment increases. This is particularly true in multi-story buildings where mobile devices experience a three-dimensional (3D) RF environment. A single handset is able to see a very large number of small cells, some on its own floor and others from floors above and below it. The radio signal inside buildings experiences flat fading, which means that even a stationary handset sees signal from small cells fluctuate by 6-8 dB. Despite such variation in signal quality, a small cell RAN should remain stable and not drop calls, or experience throughput degradation.


Figure 1: Indoor radio environment is more challenging in dense small cell deployments than macro networks.

Co-channel Operation

In the coming years, mobile operators will have to use all their spectrum assets to deliver capacity. Dedicating spectrum for indoor small cells will not be a luxury that any operator will be able to afford. Not only must all small cells inside a building operate on the same channel, they must share this channel with the macro-cellular network. 3GPP standards define a number of techniques in which interference is managed between cells (3G soft handover, ICIC using FFR, eICIC for HetNets). However, all of them require some form of coordination between cells. To implement them, the indoor RAN system should have an entity that can coordinate interference between its cells and with the macro-cellular network.

Minimize Load on Core Network

The 3D RF environment, combined with flat fading, increases the number of handover events experienced by mobile devices. In some of SpiderCloud’s dense small cell deployments, mobile devices experience as many as two handover events per minute. If inter-small cell handover events are allowed to reach the core network, handling them can become a big expense for the operator. Ideally, all handover (mobility) events should be handled within the indoor RAN.

Deploying indoor RANs can be expensive if it requires extensive radio (RF) planning, dedicated cabling and manual configuration. The need for specialized technicians to do these operations can further slow down the pace of deployments. This is the case with today’s distributed antenna systems. Deploying such systems in a 12-16 story building can take 6-9 months and cost $1-$2 per ft2, where more than half the cost is in the installation.

For indoor RANs to be widely deployed, they should be able to use the building’s existing Ethernet infrastructure for both network connectivity and power, as much as possible. A small team of technicians, without specialized cellular wireless knowledge, should be able to install the system. And after that, the system should just work, without the need for manual configuration or optimization.

On June 4, we announced findings from our LTE trials using our award-winning SCRN-310 dual-band 3G/LTE Radio Node. One year ago, on the same day (June 4, 2013), we announced our 3G KPI. The findings of the new LTE trials show performance reliability results consistent with similar 3G small cell test results released 12 months ago.

  • Average Call Setup Success Rate of 99.5%
  • Call Drop Rate 0.4%
  • Intra-E-RAN Hand-over Success Rate 99.9%

With a dual-band Radio Node, operators enable better access capacity for its enterprise subscribers, and therefore create an overall better user experience in the small cell network. Since each Radio Node has its own dedicated capacity for fast user access, the E-RAN system with dual-band Radio Nodes will need fewer Radio Nodes to connect more devices more often, as say compared to a shared antenna system.

The number of 3G subscribers will continue to grow in many networks, even after LTE is launched, because 3G handsets will be less expensive than LTE handsets. Even subscribers with LTE devices will continue to use 3G for voice services, till Voice-over-LTE is launched. As a result, it is essential that operators deploy indoor RANs that support both 3G and LTE.

With 3G+LTE and reliability of 99.5%, the blurring of the lines between mobile and enterprise networks becomes a reality as managed services are offered via scalable small cell systems that can facilitate cloud and applications services.

See you in Amsterdam on June 23-24 for Informa’s LTE World Summit where we are also nominated for’s “Most Innovative LTE Application/Service” award for our E-RAN Estimator Application.


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