Optical Components: Market Shares, Strategies, and Forecasts, Worldwide, 2013 to 2019

Optical Components: Market Shares, Strategies, and Forecasts, Worldwide, 2013 to 2019

Optical Components: Market Shares, Strategy, and Forecasts, Worldwide, 2013 to 2019 study has 567 pages, 231 tables and figures. Worldwide optical transceiver markets are poised to achieve significant growth as the data in networks expands exponentially. As cloud systems proliferate and wireless data takes hold the efficiencies brought by high speed end-to-end optical networks are needed by carriers and in the data center.

 

Optical Components are used to update the communications networks to manage broadband, to update the data center networks to make them manage traffic with higher speeds, to implement the backbone network for mobile communications.

 

Everything is going mobile. This evolution is driven by mobile smart phones and tablets that provide universal connectivity. With 6 million cell phones in use and one million smart phones, soon to be 6 million smart phones, a lot of people have access to mobile communication. Video, cloud-based services, the internet, and machine-to-machine (M2M) provide mobile connectivity. All these devices are networked and drive significant traffic to the broadband network, stimulating the need for optical transceivers.

 

The optical component market is intensely competitive. There is increasing demand for optical components as communications markets grow in response to more use of smart phones and more Internet transmission of data. The market for network infrastructure equipment and for communications semiconductors offers attractive long-term growth:

 

Data center growth is in response in part to the growth of bid data, and in part to the incredible bandwidth being consumed by video content. New programming is moving to broadcast quality short videos that can be downloaded by users Users can download broadcast quality news or training videos as broadband networks become universally available.

 

Low bandwidth video does not directly drive adoption of optical components. It indirectly does by creating demand for broadband data transport. Video capability at the high end of the market is creating need for network high speed of transmission just because of the quantity of data being transmitted.

 

The Optical Transport Network (OTN) is a set of optical network elements connected by optical fiber links. Optical network elements provide transport, multiplexing, switching, management, supervision and survivability of communication channels. Carrier Ethernet is emerging. Optical transceiver, transmitter, receiver, and transponders support the implementation of the new network capacity.

 

Optical components are an innovation engine for the network supporting end to end data transport over optical systems. Optical components support and enable low-cost transport throughout the network. Optical components are needed for high speed network infrastructure build-outs. These are both for carriers and data centers. Network infrastructure build-out depends on the availability of consultants who are knowledgeable.

 

Optical transceivers are evolving that are compliant with the 10Gbps Small Form Factor Pluggable (XFP) Multi-Source Agreement (MSA) specification for next generation optical transceiver devices. The 10Gbps optical transceiver can be used in telecom and datacom (SONET/SDH/DWDM/Gigabit Ethernet) applications to change an electrical signal into an optical signal and vice versa.

 

There is expected to be tremendous investment in wireless cell tower base stations as the quantity of network traffic grows exponentially. Carriers worldwide are responding to the challenges brought by the massive increase in wireless data traffic. The advent of big data and exponential growth of data managed by the enterprise data centers is a significant market factor.

 

The global optical component market at $3.6 billion in 2012 is anticipated to reach $12.3 billion by 2019. Growth is driven by the availability of high speed processors and component devices that support increased speed and traffic on the optical networks. The migration to all optical networks is ongoing.

 

Markets are driven by the availability of 100 Gbps devices and the vast increases in Internet traffic. Internet traffic growth comes from a variety of sources, not the least of which 1.6 billion new smart phones sold per year. Smartphone market growth is causing the need for investment in backhaul and cell tower technology.

 

Worldwide optical transport market revenues are forecast to grow rapidly through 2019. This is in the context of a world communications infrastructure that is changing. Technology is enabling interaction, innovation, and sharing of knowledge in new ways.

Optical Amplifiers: Market Shares, Strategies, and Forecasts, Worldwide, 2013 to 2019

Optical Amplifiers: Market Shares, Strategies, and Forecasts, Worldwide, 2013 to 2019

Optical Amplifiers: Market Shares, Strategy, and Forecasts, Worldwide, 2013 to 2019 study has 375 pages, 100 tables and figures. Worldwide optical amplifier markets are poised to achieve significant growth as the data in networks expands exponentially. As cloud systems proliferate and wireless data takes hold the efficiencies brought by high speed end-to-end optical networks are needed by carriers and in the data center.

 

Optical Amplifiers are evolving. There are various types including the EDFA, Raman, and Semiconductor configurations. The EDFA optical amplifier units can be used in telecom and datacom (SONET/SDH/DWDM/Gigabit Ethernet) applications to change an electrical signal into an optical signal and vice versa.

 

According to Susan Eustis, lead author of the study, "Optical Amplifiers are used to update the communications networks to manage broadband, to update the data center networks to make them manage traffic with higher speeds, to implement the backbone network for mobile communications.

 

"Everything is going mobile. This evolution is driven by mobile smart phones and tablets that provide universal connectivity. With 6 billion cell phones in use and one billion smart phones, soon to be 6 billion smart phones, a lot of people have access to mobile communication. Video, cloud-based services, the internet, and machine-to-machine (M2M) provide mobile connectivity. All these devices are networked and drive significant traffic to the broadband network, stimulating the need for optical transceivers."

 

The optical amplifier component market is intensely competitive. There is increasing demand for optical components as communications markets grow in response to more use of smart phones and more Internet transmission of data. The market for network infrastructure equipment and for communications semiconductors offers attractive long-term growth:

 

Data center growth is in response in part to the growth of bid data, and in part to the incredible bandwidth being consumed by video content. New programming is moving to broadcast quality short videos that can be downloaded by users Users can download broadcast quality news or training videos as broadband networks become universally available.

 

Low bandwidth video does not directly drive adoption of optical components. It indirectly does by creating demand for broadband data transport. Video capability at the high end of the market is creating need for network high speed of transmission just because of the quantity of data being transmitted.

 

The Optical Transport Network (OTN) is a set of optical network elements connected by optical fiber links. Optical network elements provide transport, multiplexing, switching, management, supervision and survivability of communication channels. Carrier Ethernet is emerging. Optical transceiver, transmitter, receiver, and transponders support the implementation of the new network capacity.

 

Optical amplifier components are an innovation engine for the network supporting end to end data transport over optical systems. Optical components support and enable low-cost transport throughout the network. Optical components are needed for high speed network infrastructure build-outs. These are both for carriers and data centers. Network infrastructure build-out depends on the availability of consultants who are knowledgeable.

 

Optical amplifiers are evolving to be compliant with the 10Gbps Small Form Factor Pluggable (XFP) Multi-Source Agreement (MSA) specification for next generation optical transceiver devices. There is expected to be tremendous investment in wireless cell tower base stations as the quantity of network traffic grows exponentially. Carriers worldwide are responding to the challenges brought by the massive increase in wireless data traffic. The advent of big data and exponential growth of data managed by the enterprise data centers is a significant market factor.

 

The global optical amplifier market at $900 million in 2012 is anticipated to reach $2.8 billion by 2019. Growth is driven by the availability of high speed processors and component devices that support increased speed and traffic on the optical networks. The migration to all optical networks is ongoing.

 

Markets are driven by the availability of 100 Gbps devices and the vast increases in Internet traffic. Internet traffic growth comes from a variety of sources, not the least of which 1.6 billion new smart phones sold per year. Smartphone market growth is causing the need for investment in backhaul and cell tower technology.

 

Worldwide optical transport market revenues are forecast to grow rapidly through 2019. This is in the context of a world communications infrastructure that is changing. Technology is enabling interaction, innovation, and sharing of knowledge in new ways.

Optical Transceiver, Transmitter, Receiver, and Transponder Components: Market Shares, Strategies, and Forecasts, Worldwide, 2013 to 2019

Optical Transceiver, Transmitter, Receiver, and Transponder Components: Market Shares, Strategies, and Forecasts, Worldwide, 2013 to 2019

Optical Transceivers: Market Shares, Strategy, and Forecasts, Worldwide, 2013 to 2019 study has 453 pages, 130 tables and figures. Worldwide optical transceiver markets are poised to achieve significant growth as the data in networks expands exponentially. As cloud systems proliferate and wireless data takes hold the efficiencies brought by high speed end-to-end optical networks are needed by carriers and in the data center.

 

According to Susan Eustis, lead author of the study, "Optical transceivers are used to update the communications networks to manage broadband, to update the data center networks to make them manage traffic with higher speeds, to implement the backbone network for mobile communications. Everything is going mobile. This evolution is driven by mobile smart phones and tablets that provide universal connectivity. With 6 million cell phones in use and one million smart phones, soon to be 6 million smart phones, a lot of people have access to mobile communication. Video, cloud-based services, the internet, and machine-to-machine (M2M) provide mobile connectivity. All these devices are networked and drive significant traffic to the broadband network, stimulating the need for optical transceivers."

 

The Optical Transport Network (OTN) is a set of optical network elements connected by optical fiber links. Optical network elements provide transport, multiplexing, switching, management, supervision and survivability of communication channels. Carrier Ethernet is emerging. Optical transceiver, transmitter, receiver, and transponders support the implementation of the new network capacity.

 

Optical transceiver components are an innovation engine for the network. Optical transceiver components support and enable low-cost transport throughout the network. Optical transceivers are needed for high speed network infrastructure build-outs. These are both for carriers and data centers. Network infrastructure build-out depends on the availability of consultants who are knowledgeable.

 

Consultants with extensive experience are needed to bring optical component network design, installation, upgrade and maintenance into development. Optical components are being used to equip data centers, FTTx, metro access or core networks. They are used for long-haul and WAN.

 

A palette of pluggable optical transceivers includes GBIC, SFP, XFP, SFP+, X2, CFP form factors. These are able to accommodate a wide range of link spans. Vendors work closely with network planners and infrastructure managers to design high speed optical transport systems.

 

Optical transceivers are evolving that are compliant with the 10Gbps Small Form Factor Pluggable (XFP) Multi-Source Agreement (MSA) specification for next generation optical transceiver devices. The 10Gbps optical transceiver can be used in telecom and datacom (SONET/SDH/DWDM/Gigabit Ethernet) applications to change an electrical signal into an optical signal and vice versa.

 

The 10Gbps optical transceiver is generally compliant with XENPAK Multi-Source Agreement (MSA) specification for next generation optical transceiver.

 

A typical 1550nm chirp managed directly modulated laser is in a butterfly package and is used for 10G/200km. A solution for upgrading metro networks to 10Gbps is enabled by the transceivers. New components are more tolerant of dispersion. They provide a smaller footprint, lower power consumption, and cost savings for equipment vendors.

 

Optical transceiver market driving forces relate to the increased traffic coming from the Internet. The optical transceiver signal market is intensely competitive. There is increasing demand optical transceivers as communications markets grow in response to more use of smart phones and more Internet transmission of data. The market for network infrastructure equipment and for communications semiconductors offers attractive long-term growth:

 

There is expected to be tremendous investment in wireless cell tower base stations as the quantity of network traffic grows exponentially. Carriers worldwide are responding to the challenges brought by the massive increase in wireless data traffic. The advent of big data and exponential growth of data managed by the enterprise data centers is a significant market factor.

 

The global optical transceiver market will grow to $6.7 billion by 2019 driven by the availability of 100 Gbps devices and the vast increases in Internet data traffic.

 

Internet traffic growth comes from a variety of sources, not the least of which 1.6 billion new smart phones sold per year. Smartphone market growth is causing the need for investment in backhaul and cell tower technology.

 

Worldwide optical transport market revenues are forecast to grow through 2019. This is in the context of a world communications infrastructure that is changing. Technology is enabling interaction, innovation, and sharing of knowledge in new ways.

Next Generation Mobile Marketing: Location, Social Commerce, and Augmented Reality

Next Generation Mobile Marketing: Location, Social Commerce, and Augmented Reality

The accelerated global spending growth on mobile ad campaigns during the last five years is likely a function of three critical areas that we will examine more closely throughout this report: Mobile Devices, Mobile Technology/Access, and Marketing Savvy.

 

The use of augmented reality (AR) applications with mobile phones has great potential in support of mobile marketing. For example, it will make the shopping experience for the end-user more educational. This report evaluates the use of AR applications in the mobile market arena with in depth analysis of future AR applications and the integration with social commerce with marketing and advertising in mobile device and wearable augmented reality devices.

 

Target Audience:

• Brands and Merchants
• Mobile Network Operators
• Mobile Marketing Companies
• Social Media Companies and Developers
• Augmented Reality Application Companies

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Bring Your Own Device (BYOD) vs. Corporate Owned-Personally Enabled (COPE) Strategy for Enterprise Mobility

Bring Your Own Device (BYOD) vs. Corporate Owned-Personally Enabled (COPE) Strategy for Enterprise Mobility

Mobile Device Management (MDM) policy deployed under Corporate Owned-Personally Enabled (COPE) strategy has recently gained much attention to manage enterprise mobility system of an organization overcoming the pitfalls of the so called “Bring Your Own Device” (BYOD) approach. Factors driving the COPE strategy include adoption corporate data control & security, high cost mobility management, distracted ineffective troubleshooting and challenges, high cost burden on total billing, usage & support staff, and more.

 

COPE represents a strategy in which an organization extends BYOD for their employees while allowing them to use their device for personal usage wherein security is imposed on the data network - not the device itself. This allows an organization to create a secure environment for data transmission and usage, leading to huge cost savings with respect to total mobility management expenditures when deployed. Mind Commerce research has identified that 77% of BYOD organizations suffered from sensitive data loss leading to negative impact on balance-sheet and roughly two thirds of them are considering COPE as an optimal strategy. It is predicted that 70% of global organizations will deploy vendor managed COPE by 2015.

 

Target Audience:

• Mobile network operators
• Mobile network infrastructure providers
• Mobile Device Management (MDM) companies
• Mobile personalization and entertainment companies
• Enterprise mobility management across all industry verticals

Report Benefits:

• Understand how IT can leverage COPE benefits
• Identify strategic benefits of COPE over BYOD (with SWOT analysis)
• Case studies from successful implementation including evaluation of COPE cost savings
• Identify mobile workforce adoption trends, employer and employee perception over BYOD, COPE and security issues, and adoption trend by region

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Mobile Network Subscriptions, Deployments, Spectrum and Infrastructure Contracts Database Q2'2012 database

Mobile Network Subscriptions, Deployments, Spectrum and Infrastructure Contracts Database Q2'2012 database

Covering over 810 operators, 53 infrastructure vendors and 222 countries worldwide the "Mobile Network Subscriptions, Deployments, Spectrum and Infrastructure Contracts Database Q2'2012" tracks global 2G/3G/4G cellular network deployments, infrastructure vendor contracts, subscriptions and handset shipments.

The database includes:

• Infrastructure contracts by technology (GSM, W-CDMA, HSPA, LTE,CDMA, 1xRTT, 1xEV-DO, 1xEV-DO Rev A/B, TD-SCDMA, iDEN, TDMA, PHS, PDC), region, country, vendor and operator
• Infrastructure market share by equipment type, region, country and vendor
• Network deployments by technology, data protocol, region, country and operator
• Number of cellular network subscriptions by air interface technology, data protocol, region, country and operator
• Network Spectrum holdings by bandwidth, frequency, region, country and operator
• Five-year subscriptions forecasts by technology, data protocol, region, country and operator
• Subscriptions market share data by technology, data protocol, region, country and operator
• Five-year handset shipment forecasts by technology, region and country

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The 2G, 3G & 4G Wireless Network Infrastructure Market: 2012 - 2016

The 2G, 3G & 4G Wireless Network Infrastructure Market: 2012 - 2016

The wireless network infrastructure market is currently in a phase of transition as mobile network operators seek to address increasing mobile traffic demands amidst global economic uncertainties. This paradigm shift is bringing new challenges and opportunities to infrastructure vendors.

In 2011, global 2G , 3G and 4G wireless infrastructure revenues stood at $45.9 billion. Signals and Systems Telecom estimates that these revenues will increase 8 percent year on year (YOY) reaching $49.7 billion by end of 2012, primarily driven by LTE investments. However, between 2012 and 2017, the market is expected to shrink to $48.6 billion.

Although, the new wave of 4G macrocell Radio Access Network (RAN) and core network investments will not be able to compensate the overall declines in 2G and 3G equipment sales, operators are expected to significantly increase their spending in the evolving small cell and carrier WiFi equipment market. Small cell and WiFi offload equipment will represent a market worth $5.4 billion in 2017. Consequently the small cell and WiFi offload market segment is attracting considerable attention from both established vendors as well as startups which solely focus on the small cell market.

This report provides an in-depth assessment of the 2G, 3G and 4G wireless network infrastructure market, and also explores the small cell and WiFi offload, and the mobile backhaul markets. Besides analyzing the key market drivers, challenges, regional CAPEX commitments and vendor strategies, the report also presents revenue and unit shipment forecasts for the wireless network infrastructure, small cell and WiFi offload, and the mobile backhaul markets from 2012 to 2017 at a regional as well as a global scale. Historical figures and vendor shares are also provided for 2010 and 2011.

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Topics Covered:

• 2G (GSM and CDMA) technology and market trends
• 3G (WCDMA, TD-SCDMA and CDMA-2000) technology and market trends
• 4G (LTE, WiMAX) technology and market trends
• Core network equipment market trends
• Mobile backhaul equipment and market trends
• WiFi offload, small cell and HetNet technology and market trends
• Market drivers for wireless network infrastructure investments
• Challenges to the wireless network infrastructure ecosystem
• Vendor profiles and strategies
• Global and regional market analysis and forecasts
• SWOT analysis of the wireless network infrastructure market

Key Questions Answered:

The report answers to the following key questions:

• How is the 2G, 3G & 4G infrastructure market evolving by segment and region? What will the market size be in 2017 and at what rate will it grow?
• What trends, challenges and barriers are influencing its growth?
• How will the market shape for small cell infrastructure such as Femtocells, Picocells, Microcells and other "HetNet" deployments?
• How will WiFi fit into future network architectures for access and offload?
• Who are the key vendors in the market, what is their market share and what are their strategies?
• What strategies should be adopted by operators and vendors to remain a dominant market force?
• Which 2G, 3G & 4G technology constitutes the highest amount of spending and how will this evolve overtime?
• How will LTE deployments proceed, and how long will GSM, HSPA and CDMA technologies coexist with LTE?
• When will WiMAX infrastructure spending diminish ?
• What is the global and regional outlook for RAN and core network sub-markets ?
• What is the opportunity for wireless backhaul market, and what new backhaul solutions are evolving?

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The Future of LTE: Infrastructure, Applications, and Subscribers 2013 – 2018

The Future of LTE: Infrastructure, Applications, and Subscribers 2013 – 2018

The deployment of LTE networks is progressing with the industrialized nations in North America, Europe and Asia already deploying operating LTE networks. 

This report addresses key issues regarding LTE including operational support systems, architecture, and significant commercial features for consumers and enterprise users. This report provides the reader with critical vision into the future of LTE including the drive for lower priced capacity also driving lower margins for core services leading to the need for value-added services (VAS). 

We evaluate these VAS applications supported by new advances in LTE with an emphasis on their market potential in terms of new revenue and enhanced profitability for the mobile network operators in the face of competition from over the top (OTT) players. We also provide vision into the future of LTE in terms of new business paradigms, business model evolution, devices and subscribers, opportunities and threats to the mobile network operators.

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The Market for Services and Devices in the LTE-D and Wearable Wireless Post Smartphone/Tablet Era

The Market for Services and Devices in the LTE-D and Wearable Wireless Post Smartphone/Tablet Era

The world of wireless is moving beyond the notion of personal communications meaning only a phone.  Smartphones are already so much more than a communications device as they facilitate many non-voice applications, content, and commerce.  Global Wireless Research (GWR) research predicts that the Smartphone Era will end once several new technologies are in place commercial, which include ubiquitous 4G/LTE (and faster) data speed, wearable wireless devices, peer-to-peer communication/signaling (via LTE Direct, WiFi Direct and others), and Augmented Reality.

 

This research analyzes each of these technologies anticipated impact on the wireless business ecosystem and their convergence to transform mobile service usage from smartphones to a future of wearable wireless, personal device/public device convergence, and all of the anticipated new use case scenarios associated with this evolution.  These new scenarios include many new services in the areas of public safety, communications, commerce, and content that stretch beyond existing mobile network service paradigms.

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Public Safety LTE: A Global Assessment of Market Size, Technology, Vendor Trends and Spectrum Allocation 2013-2018

Public Safety LTE: A Global Assessment of Market Size, Technology, Vendor Trends and Spectrum Allocation 2013-2018

In times of disasters and emergency situations access to reliable, integrated communications and tactical information is absolutely critical. Unfortunately the ability to mount a coordinated inter-agency response to major threats is often hampered by the proliferation of divergent signaling standards and non-aligned spectrum planning.

Considered as the de-facto standard for Public Safety broadband communications, LTE is rapidly gaining momentum within the Public Safety industry. As a result Public Safety agencies, vendors and service provider are heavily investing in Public Safety LTE , with commercial deployments in both the North America and the Middle East region. While initial investments appear promising there still remain a number of key issues that need to be addressed such as frequency spectrum allocation, funding for private LTE network deployments, QoS prioritization of users in commercial networks, and interoperability with legacy Land Mobile Radio (LMR) systems such as APCO 25 and TETRA.

This report provides an in-depth of the global Public Safety LTE industry to address the aforementioned issues, in addition to providing a detail assessment of the technology, market size, and key trends within the Public Safety LTE industry.

The report covers the following topics:

• Global Spectrum Allocation for Public Safety LTE: A global assessment of spectrum allocation and funding for Public Safety LTE deployments, based on input from regional regulatory authorities.
• Global Public Safety LTE Market Size, Contracts & Trials: A global review of the worldwide Public Safety LTE market including assessment of revenue share by market segment (infrastructure sales, services, user device sales, etc), and a review of global contracts and trial engagements.
• RAN Sharing and Roaming: The term "RAN sharing" refers to sharing of actual eNodeBs. As part of this arrangement, each operator accesses the shared RAN with its own EPC. Vendors are also considering the implementation of Inter-PLMN handover (as opposed to roaming) and then for LTE Commercial carriers to deploy Policies for Service Level Agreements that include Priority Access (Access Class Barring, Preemption and ARP) and QoS/ QCI assignment for default and dedicated bearers. The report assesses in detail how many of vendors and commercial carriers will support RAN sharing, roaming and inter-PLMN handovers which will be key factors towards the adoption of commercial LTE RANs for Public Safety applications.
• Global QoS Requirements for Public Safety LTE Communications: A detailed assessment of global requirements for Priority access and High QoS for Public Safety subscribers, for shared commercial LTE networks, while they roam on to Commercial Networks.
• Public Safety LTE Devices and End User Applications: An assessment of device usability characteristics, Multi-Radio LTE/LMR interoperability technology, Software and Applications (VoLTE, PTT over LTE, IMS, IP).
• Vendor Trends and Roadmaps: A detailed assessment of solution portfolios and roadmaps for major infrastructure/ device vendors and system integrators
• LTE-Advanced Support for Heterogeneous Commercial/LMR Networks: In-depth assessment of the LTE Advanced standard and technologies and spectrum planning for Fixed/Nomadic based Pico Cells/Femto Cells and mobile base stations (e.g. LTE Cell on Wheels (CoW)) and proximity based services such as Direct Mode Operation (DMO) in LMR systems, which have broad implications for the adoption of Public Safety LTE services.
• LTE based Public Safety Tactical Systems and Military Applications: Detailed market assessment of LTE based Public Safety Tactical Systems such as CoW, Cell over Light Trucks (COLTs) and Military Applications for LTE.

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Target Audience:

• System Integrators
• Public Safety Agencies
• LMR Radio Manufacturers
• Cellular Network Operators
• Smartphone Manufacturers
• Public Safety Network Operators
• LMR Infrastructure Manufacturers
• Public Safety Application Developers
• Mobile Computing Equipment Manufacturers
• Cellular Network Infrastructure Manufacturers

Key Findings: 

• Between 2013 and 2018, the Public Safety LTE market will grow at a CAGR of 43 % accounting for over $ 10 Billion in revenue by 2018, up from $ 1.8 Billion in 2013.
• Operator service revenues will constitute a vast majority of the revenue, followed by managed services and integration, representing a lucrative opportunity for vendors and system integrators to build, own and operate Public Safety LTE networks.
• Europe will lag behind Middle East, Asia Pacific and Latin America in the early adoption of Public Safety LTE technology due to stringent spectrum regulation policies. The Middle East has already witnessed commercialization of the technology with an early deployment by the Qatar MOI.

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Analysis on Middle East MVNO Market 2013

Middle East MVNO Market and Competitive Analysis 2013

The report gives vital information to investors, consultants, integrators and analysts in the mobile space, suppliers of MVNO equipment and software, and network operators and other service providers. The report also focuses on telecom sector that has experienced new investments in many of the worlds developed markets. The report evaluates each market within the Middle East region, the existing competition, the MVNO regulation and proposes where the next big opportunities may arise.

The report contains critical reviews given by the existing resellers and MVNOs apart from the new MVNO entrants. It also provides details on the existing and potential players in the market, including key ownership, management team and principals, partners, funding, network operators and underlying technology, MVNE (Mobile Virtual Network Enabler), pricing, target markets, and their strategies for branding, marketing and distribution. It also examines the future prospects for each MVNO and rates its chances of business success.

The report is specifically useful for MVNO and MVNE in the Middle East, Middle East mobile network operators, organizations looking to invest in the ME, and suppliers to ME including infrastructure and handsets.

The report also contains descriptions on various other topics such as The Middle East Wireless Market Place, Mobile Virtual Network Operators, The MVNO Technology Options, Middle East Mobile Virtual Network Operators 2010, and many more.

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Revenue Generation Streams of Mobile Network Operators (Subscription based report bundle)

Mobile Network Operator Revenue Improvement and Profitability Enhancement

This report provides the in-depth information to mobile network operator with key information to identify and understand Value-added Services (VAS) that are required to generate new revenue streams, how to position the network for success, etc.  

The report is specifically useful for mobile network operators, application developers, handset manufacturers and infrastructure suppliers.  

Mobile network operators are facing unprecedented competition driven by Over-the-Top (OTT) players, Google, and the evolving ecosystem including inexpensive voice and data bearer services.  The report provides key information to the mobile network operator in order to identify and understand:

• What Value-added Services (VAS) to deploy to generate new revenue streams, enhance profitability, and differentiate versus the competition
• How to position the network for success in a post-LTE world including network optimization, BSS/OSS, services integration and orchestration, and more
• What key commerce, content, communications and applications to gain customer stickiness and intimacy, leading to more loyal and profitable customers
• How to leverage existing assets for new revenue streams including subscriber data, carrier API extension, management of third-parties and their solutions, and more

The report contains in detail information on various topics such as Wi-Fi Direct Solutions and Applications, Wireless Security Market in LTE Networks 2013-2018, Cloud Telephony: Technology and Market Analysis & Forecast 2012-2017, Mobile Marketing & Advertising 2013: Challenges and Opportunities, Google vs. Carriers: SWOT Analysis and Future of Telecom and Commerce, Next Generation Network Application Market Outlook and Business Drivers and many more.  

The subscribers of this report will also receive another report i.e. Carrier Competitive Analysis for major mobile network operators which include Pricing (price wars), Growth prospects (where and how), Revenue, margins, and profitability expectations, MNVO future expectations, Applications (P2A, P2P, and A2A/M2M), IP/patent review, Acquisition targets, Key suppliers. 

Apart from the above report, the subscribers will also get additional reports coming in 1Q 2013 which include: 

• End-to-End M2M Sixth Edition, LMR and LTE in Industry Verticals
• Mobile Social TV: Opportunities for Social Networking, Advertising, and Commerce
• Market Opportunity: Mobile Free to End-user (FTEU) Services
• Mobile Network Operator Role in Personal Cloud Services
• Mobile and Wireless Network Operator Growth Expectations
• New Business Models for Mobile Network Operators, Future of Mobile Cellular Communications. 

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