Small cell
Small cells[1] are low-powered radio access nodes that operate in licensed and unlicensed spectrum that have a range of 10 meters to 1 or 2 kilometers. They are "small" compared to a mobile macrocell, which may have a range of a few tens of kilometers. With mobile operators struggling to support the growth in mobile data traffic,[2] many are using mobile data offloading as a more efficient use of radio spectrum. Small cells are a vital element to 3G data offloading, and many mobile network operators see small cells as vital to managing LTE Advanced spectrum more efficiently compared to using just macrocells.[3]
Types of small cells
Small cells may encompass femtocells, picocells, and microcells. Small-cell networks can also be realized by means of distributed radio technology using centralized baseband units and remote radio heads. Beamforming technology (focusing a radio signal on a very specific area) can further enhance or focus small cell coverage. These approaches to small cells all feature central management by mobile network operators.
Small cells provide a small radio footprint, which can range from 10 meters within urban and in-building locations to 2 km for a rural location.[4] Picocells and microcells can also have a range of a few hundred meters to a few kilometers, but they differ from femtocells in that they do not always have self-organising and self-management capabilities.[5]
Small cells are available for a wide range of air interfaces including GSM, CDMA2000, TD-SCDMA, W-CDMA, LTE and WiMax. In 3GPP terminology, a Home Node B (HNB) is a 3G femtocell. A Home eNode B (HeNB) is an LTE femtocell. Wi-Fi is a small cell but does not operate in licensed spectrum therefore cannot be managed as effectively as small cells utilising licensed spectrum. The detail and best practice associated with the deployment of small cells varies according to use case and radio technology employed.[6]
Umbrella term
The most common form of small cells are femtocells. They were initially designed for residential and small business use,[7] with a short range and a limited number of channels. Femtocells with increased range and capacity spawned a proliferation of terms: metrocells, metro femtocells, public access femtocells, enterprise femtocells, super femtos, Class 3 femto, greater femtos and microcells. The term "small cells" is frequently used by analysts and the industry as an umbrella to describe the different implementations of femtocells, and to clear up any confusion that femtocells are limited to residential uses. Small cells are sometimes, incorrectly, also used to describe distributed-antenna systems (DAS) which are not low-powered access nodes.
Purpose
Small cells can be used to provide in-building and outdoor wireless service. Mobile operators use them to extend their service coverage and/or increase network capacity.
ABI Research argues that small cells also help service providers discover new revenue opportunities through their location and presence information. If a registered user enters a femtozone, the network is notified of their location. The service provider, with the user's permission, could share this location information to update user's social media status, for instance. Opening up small-cell APIs to the wider mobile ecosystem could enable a long-tail effect.[8]
Rural coverage is also a key market that has developed as mobile operators have started to install public access metrocells in remote and rural areas that either have only 2G coverage or no coverage at all. The cost advantages of small cells compared with macro cells make it economically feasible to provide coverage of much smaller communities - from a few tens to a few hundreds. The Small Cell Forum have published a white paper outlining the technology and business case aspects.[9] Mobile operators in both developing and developed world countries are either trialing or installing such systems. The pioneer in providing rural coverage using small cells was SoftBank Mobile - the Japanese mobile operator - who have installed more than 3000 public access small cells on post offices throughout rural Japan. To overcome the backhaul challenge in remote locations they have used VSAT satellite backhaul to link sites to their core network. The Informa Telecoms and Media consultancy also have a paper covering this use of small cells.[10]
Future mobile networks
Small cells are an integral part of future LTE networks.[11] In 3G networks, small cells are viewed as an offload technique. In 4G networks, the principle of heterogeneous network (HetNet) is introduced where the mobile network is constructed with layers of small and large cells.[12] In LTE, all cells will be self-organizing, drawing upon the principles laid down in current Home NodeB (HNB), the 3GPP term for residential femtocells.
Future innovations in radio access design introduce the idea of an almost flat architecture where the difference between a small cell and a macrocell depends on how many cubes are stacked together.[13] With software-defined radio, a base station could be 2G, 3G or 4G at the flick of a switch, and the antenna range can easily be tuned.[14]
The transmitting signal from MBS weakened and worsen quicker once the Macro Base Station (MBS) signal reaches indoors. Femtocells provide way out to the difficulties present in macrocell-based system. So that, Femto Base Station (FBS) network coverage is one of the prime concerns in indoor environment to get good quality of service (QoS).[15]
Deployment
In total, over 11 million small cells encompassing public, enterprise and residential have been deployed by 47 operators worldwide.[16]
Small cell backhaul
Backhaul is needed to connect the small cells to the core network, internet and other services. Mobile operators consider this more challenging than macrocell backhaul because a) small cells are typically in hard-to-reach, near-street-level locations rather than in more open, above-rooftop locations and b) carrier grade connectivity must be provided at much lower cost per bit.[17] In one survey, 55% operators listed backhaul as one of their biggest challenge for small cell rollout.[18] Many different wireless and wired technologies have been proposed as solutions, and it is agreed that a ‘toolbox’ of these will be needed to address a range of deployment scenarios. An industry consensus view of how the different solution characteristics match with requirements is published by the Small Cell Forum.[19] The backhaul solution is influenced by a number of factors, including the operator’s original motivation to deploy small cells, which could be for targeted capacity, indoor or outdoor coverage .[20]
In August 2013 the US Federal Communications Commission announced a change in its rules governing the 60 GHz (57–64 GHz) band, making it one of the key technologies for LTE backhaul.[21]
References
- ↑ Small Cells: Outdoor Pico and Micro Markets
- ↑ Cisco Visual Networking Index
- ↑ Small cells key to making LTE pay
- ↑ Small cell range
- ↑ Small Cell terminology
- ↑ Small Cell Forum Release structure and roadmap
- ↑ Femtocell History
- ↑ Long tail of small cells
- ↑ rural and remote coverage using small cells
- ↑ backhaul for rural small cells
- ↑ Small Cells to Play a Big Part in Network Architecture of the Future
- ↑ Heterogeneous Networks
- ↑ Death of the base station
- ↑ Green Small Cell Flexible Networks
- ↑ J. Ghosh and S. Dhar Roy, "The Implications of Cognitive Femtocell Based Spectrum Allocation Over Macrocell Networks", Wireless Personal Communications,Aug.2016.doi:10.1007/s11277-016-3597-x
- ↑ ' Market Status Statistics June 2015, June 2015.
- ↑ Small Cell Backhaul Requirements J. Robson, NGMN Alliance, June 2012
- ↑ Small Cells Market Status, Informa Telecoms and Media, June 2012
- ↑ Backhaul Technologies for Small Cells, use cases, requirements and solutions Small Cell Forum, February 2013
- ↑ Five ways to deploy small cells and the implications for backhaul CBNL, August 2012
- ↑ FCC changes rules in 57-64 GHz band to enhance wireless backhaul
External links
- Small Cell Forum
- Small Cell Forum Release program
- Small Cell Hub News
- ThinkSmallCell (small cells blog)
- Introduction of Small Cells