THE DENSIFICATION OF PUBLIC ACCESS HETNETS Urban small cells

Urban small cells
THE MARKET DEFINITION
THE DENSIFICATION
OF PUBLIC ACCESS HETNETS
Small cells for:
Licensed small cells, deployed by operators in AREAS OF HIGH DEMAND
DENSITY on an OPEN-ACCESS BASIS to all the customers of the operator;
they can be DEPLOYED OUTDOORS ON STREET FURNITURE (where
there may be increased RF interactions with overlapping macro-cells); OR
INDOOR PUBLIC LOCATIONS such as transport hubs and retail malls.
Indoor and outdoor public areas such as:
• shopping centres • airports • railways •
• stadiums parks • city centres •
THE OFFER
COMM€RCIA£ MULTI-CELL ROLLOUT$
usually as part of a
HetNet deployment
PRIMARY DRIVERS FOR OPERATORS
✓ Overall capacity enhancement
✓ Improved user experience
✓ Coverage depth enhancement
✓ Delivering differentiated services
SECONDARY DRIVERS FOR OPERATORS
✓ Filling specific capacity black spots
✓ Opportunity to integrate Wi-Fi
✓ Reduced cost of data delivery
✓ Support for location-aware services
BUSINESS CASE
Urban small cells – both outdoor and indoor – are an essential tool for operators.
In particular:
• The value of deploying small cells increases rapidly with the growth rate of demand.
• Small cell rollout reduces cost of carrying excess traffic on macrocells.
• The costs of small cell equipment are small in the TCO of network.
• Targeted small cell deployment (such as at cell edge areas) can achieve major cost
savings compared to macro.
• QoE enhancement a major driver for throughput and revenue increase.
• Re-use of existing spectrum in a small cell layer can save millions of dollars.
• Analysis of deployment in dense urban area over six years suggests a highly
cost-effective investment with a payback period of four years and an RoI of 136%.
CASE STUDIES
AT&T’s small cell deployment
for Disney Parks and Resort®
Small cell deployment support by
Alcatel-Lucent for a tier one operator
REQUIREMENT Best possible voice and
data coverage and connectivity for guests.
Reliable communications for Disney cast
members.
REQUIREMENT Coverage of a variety of
urban scenarios, including subway systems,
major sporting events, university
campus-wide capacity.
APPROACH Large-scale HetNet-type
solution involving more than 350 small cells,
25 DAS systems and 40 repeaters.
APPROACH Either or both of the
Alcatel-Lucent 9764 Metro Cell Outdoor
(MCO) and the 9768 Metro Radio Outdoor
(MRO) sited indoors and out of doors as
part of a heterogeneous network.
KEY RESULTS Increase in mobile voice
and data traffic on the AT&T network.
Additional cell sites planned across Walt
Disney World® and Disneyland® Resorts.
KEY RESULTS Cost-effective extension of
LTE capacity to dense urban areas.
KT LTE small cell deployment
in Korea
In-building mobile coverage solution
from Huawei and China Unicom
REQUIREMENT An unprecedented, and
sophisticated deployment of indoor and
outdoor, private and public access, to boost
network capacity and improve coverage and
customer experience in dense urban areas
of Seoul.
REQUIREMENTS Mobile broadband for
second largest airport in the world with a
throughput of over 220,000 individuals
every day.
APPROACH A multi-layered
heterogeneous network including small cells
and complemented by residential small cell
deployment. Rollout of 18,000 small cells in
the first phase. KT employed Radisys’
Trillium TOTALeNodeB LTE small cell
software solution.
APPROACH World’s largest indoor LTE
small cell commercial deployment using
Huawei’s LampSite Large Buildings Indoor
Coverage Solution.
KEY RESULTS Field tests show peak
download speed up to 140Mbps (average
speed: 115Mbps); average throughput
improved by up to 170%; data traffic
increased by 25%.
KEY RESULTS Boost for network capacity
in dense urban areas, offloading traffic from
the macro network, driving improvements in
in-building coverage, enhancing customer
experience and ensuring a much more
efficient utilization of spectrum.
SK Telecom deals with LTE small
cell QoS and security challenges
Nokia’s trial urban small cell
SCFrollout
102 Enterprise: Overview
SCF 078 Backhaul for enterprise small cells: A topic brief
SCF 079 Deployment issues for enterprise small cells
SCF 067 Enterprise small cell network architectures
SCF 066 Enterprise SON use cases
SCF 069 Enterprises and multi-operator small cells
SCF 065 Enterprise reference scenarios
REQUIREMENTS Improved QoS between
macro and small cells deployed in the same
service frequency band, including VoLTE.
REQUIREMENTS Improved understanding
of the challenges of urban small cell rollout
and how to overcome them.
APPROACH Multiple elements including
algorithm to find the erroneous neighbor
information of the macro eNB, centralized
SON solution, X2 interface support,
reference signal boost, reverse resource
allocation algorithm, and security gateways.
APPROACH Trial deployment of a small
cell solution in Arlington Heights, Illinois,
covering all phases from planning to
operations.
KEY RESULTS Improvement of hand-in
and hand-out success rates, tighter security.
KEY RESULTS Trial objectives met.
Significant discoveries from the trial
incorporated into Nokia’s commercial
small cell offering.
THE FUTURE
✓ Massive mobile demand growth on all continents
✓ Greater network densification
✓ A fully-featured small cell layer will be an
essential component of future networks
Sma
n
iPho e rtpho
ne
KEY DOCUMENTS
World
SCF 086 Market drivers for urban small cells
SCF 087 Business case for urban small cells
SCF 088 Urban small cell network architectures
SCF 095 Backhaul for urban small cells: a topic brief
SCF 096 Deployment issues for urban small cells
SCF 098 Urban small cells in the real world: case studies
RELEASES PUBLICLY
AVAILABLE AT
www.scf.io
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