Self-Organizing Networks (SON) Ecosystem: 2014 - 2020
(PRWEB) April 10, 2014
Self-Organizing Network (SON) technology minimizes the lifecycle cost of running a wireless carrier network by eliminating manual configuration of equipment at the time of deployment, right through to dynamically optimizing performance and troubleshooting during operation. This can significantly reduce the cost of the carrier’s services, improving the OpEx to revenue ratio.
Amid growing demands for mobile broadband connectivity, wireless carriers are keen to capitalize on SON to minimize rollout delays and operational expenditures associated with their ongoing LTE and small cell deployments.
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Originally targeted for the Radio Access Network (RAN) segment of wireless carrier networks, SON technology is now also utilized in the mobile core and mobile backhaul segments. Furthermore, the SON ecosystem is increasingly witnessing convergence with other technological innovations such as Big Data analytics and Deep Packet Inspection (DPI).
Despite challenges relating to implementation complexities and multi-vendor interoperability, SON revenue is expected to grow to more than $3 Billion by the end of 2016, exceeding conventional mobile network optimization revenue by over 20%.
The “Self-Organizing Networks (SON) Ecosystem: 2014 – 2020” report presents an in-depth assessment of the SON and associated mobile network optimization ecosystem including key market drivers, challenges, OpEx and CapEx savings potential, use cases, SON deployment case studies, future roadmap, value chain, vendor analysis and strategies. The report also presents revenue forecasts for both SON and conventional mobile network optimization, along with individual projections for 8 SON submarkets from 2014 through to 2020. Historical figures are also presented for 2010, 2011, 2012 and 2013.
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The report has the following key findings:
Despite challenges relating to implementation complexities and multi-vendor interoperability, SON revenue is expected to grow to more than $3 Billion by the end of 2016, exceeding conventional mobile network optimization revenue by over 20%
Driven by large scale TD-LTE rollouts and ongoing SON deployments, the Asia Pacific region will account for nearly 40% of the global mobile network optimization market by 2016
SNS Research estimates that SON can enable wireless carriers to save up to 35% of their electrical power consumption by dynamically by activating and deactivating RAN nodes in line with the changing traffic and user distribution profile
SNS Research estimates that a Tier 1 wireless carrier can save as much as 32% of its overall OpEx by employing SON across the RAN, mobile core and mobile backhaul segments of the network
The report covers the following topics:
Conventional mobile network planning & optimization
SON technology and architecture
Key benefits and market drivers of SON
Challenges to SON adoption
SON use cases
SON deployment case studies
Company profiles and strategies of over 60 SON ecosystem players
OpEx and CapEx saving analysis of SON
Wireless network infrastructure spending and traffic projections
Wireless network infrastructure industry roadmap and value chain
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Market forecasts and historical figures are provided for each of the following submarkets and their subcategories:
Mobile Network Optimization
Conventional Mobile Network Planning & Optimization
HetNet/Small Cell RAN
SON Architecture Submarkets
C-SON (Centralized SON)
D-SON (Distributed SON)
Key Questions Answered:
The report provides answers to the following key questions:
How big is the SON and mobile network optimization ecosystem?
How is the ecosystem evolving by segment and region?
What will the market size be in 2020 and at what rate will it grow?
What trends, challenges and barriers are influencing its growth?
Who are the key SON vendors and what are their strategies?
What is the outlook for QoE based SON solutions?
What is the outlook for C-SON and D-SON adoption?
What is the outlook for SON associated OpEx savings by region?
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The US Farm Tire Market Report: 2014 Edition
Agricultural/farm tires are a sub-segment of specialty tires and are used for various farm vehicles such as tractors, combines, sprayers, trailers and harvesters. The year 2013 witnessed an increase in farm tire shipments in the US despite significant weather changes. The farm tire sales in 2013 were slow in the beginning of the year but fourth quarter shipments benefited from late harvests and late planting. Due to reduction in prices of raw materials especially rubber, revenue from farm tire sales were relatively flat in 2013 compared to previous year.
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The US farm tire market has two segments, replacement (RT) and original equipment (OE) farm tires, and is further categorized into radial and bias types. The replacement segment accounts for the maximum share of the total US farm tire market. Although most of the farm tires are bias ply but the trend is changing towards the usage of radial tires. The demand for radial tires, which are found to be more beneficial in reducing compaction and handling heavy load, has far outstripped supply for last few years. A full range of new farm tires have been developed in conjunction with major agricultural machine manufacturers in response to the continuous evolution of farming techniques. In the coming years, the shipments are estimated to improve due to technological and design developments as well as increase in overall GDP and industrial production index. Key issues affecting farm tire manufacturers include weather patterns, fluctuating commodity prices and high inventory levels.
Although there are number of companies engaged in the manufacturing of farm tires, Firestone enjoys a clear leadership in both the segments i.e. OE and RT. Other major players operating in the US farm tire industry include Goodyear, Michelin, Titan, BKT and Trelleborg.
The Public Safety LTE & Mobile Broadband Market: 2014 - 2020
Considering its thriving ecosystem, spectrum flexibility and performance metrics, public safety organizations worldwide recognize LTE as the de-facto standard for mission critical mobile broadband communications.
With spectrum already allocated, public safety agencies in the Middle East, Asia Pacific and the U.S have already begun to operate private LTE networks. Driven by public safety demands, LTE products can now also operate in spectrum bands previously unthinkable, such as the 400 MHz band, which is widely available to public safety agencies worldwide. Moreover, demands for tactical and rapidly deployable broadband solutions have also led vendors to develop private LTE base station products in a variety of innovative form factors such as Cell in a Box (CIAB) or airborne cells.
SNS Research estimates the global spending on private LTE infrastructure including base stations (eNodeBs), mobile core (EPC) and backhaul will account for $2 Billion annually by the end of 2020. By the same time, the installed base of private public safety LTE base stations (eNode Bs) will reach nearly 155,000 globally, following a CAGR of nearly 60% between 2014 and 2020, and will serve nearly 4 Million private public safety LTE subscribers worldwide.
However it is important to note that the transition to LTE is one of the will be one of the most complex technical changes the public safety communications industry will ever witness and will present challenges in its own right, particularly in the context of global standardization. Furthermore spectrum, regulatory and budgetary issues in certain regions such as Europe will delay large scale private deployments.
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The report has the following key findings:
Global spending on private LTE infrastructure including base stations (eNodeBs), mobile core (EPC) and backhaul will account for $2 Billion annually by the end of 2020
By the same time, the installed base of private public safety LTE base stations (eNodeBs) will reach nearly 155,000, following a CAGR of nearly 60% between 2014 and 2020, and will serve nearly 4 Million private public safety LTE subscribers worldwide
As much as 15% of all public safety LTE investments will be military centric tactical deployments by 2020
Commercial carriers and public safety MVNOs will pocket nearly $7 Billion in public safety LTE service revenues by the end of 2020, following growth at a CAGR of 40% between 2014 and 2020
The report covers the following topics:
Business case for public safety LTE and mobile broadband services
Key benefits of public safety LTE and mobile broadband
Challenges to public safety LTE adoption
Public safety agency, network operator and vendor commitments to public safety LTE
List of private public safety LTE deployments worldwide
Public safety LTE deployment case studies
The industry roadmap for the public safety mobile broadband in general and the LTE market in particular
Public safety LTE deployment and funding models
Spectrum allocation for public safety LTE
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