LTE-Advanced: Future Mobile Industry Evolution 2016-2020

  • ID: 3787063
  • Report
  • Region: Global
  • 260 Pages
  • Maxvey
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What are the 4G LTE Advanced Future Approaches and Challenges and Opportunities?


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'LTE-Advanced: Future Mobile Industry Evolution 2016-2020' is about 4G LTE Forecast Global Market Sales, Subscribers and Revenues 2016-2020, 4G LTE Deployment- TDD and FDD, 4G LTE Network Spectrum Deployment 2016-2020, LTE Broadcast Network Deployment Solutions and Opportunities, LTE Infrastructure Revenue 2016-2020, VoLTE Approach, 5G Mobile Technology Development, 4G LTE International Roaming Strategies, Spectrum Bandwidth/ Frequency and Rollout Next-Generation Security to Protect 4G LTE and Over Voice Trials and Roll-outs Case Studies about saturating and emerging 4G markets.

Key Questions answered in this Research Report:

- What are the 4G LTE Advanced Future Approaches and Challenges and Opportunities?
- What is the Status of LTE Advanced Network Development 2015, 2016-2019?
- Will the evolution of LTE to LTE Advanced deliver a genuine 4G experience to the market?
- What are the strategies of Post deployment 4G LTE Advanced operators are facing and, the top regions for 4G LTE deployments?
- Strategies of the top infrastructure suppliers in the LTE Advanced domain
- What are the strategies of the top handset vendors for offering LTE devices?
- How many 4G LTE Subscribers and Revenues forecast will there by each year from 2016-2019?
- The report offers subscriber forecasts 2016 to 2019, region- wise i.e. Europe, North America, Asia Pacific, Latin America, Africa and the Middle East.
- What are the trend of 4G LTE Advanced Infrastructure and Device Market 2015, 2016-2019?
- Which operators have voiced their interest for LTE? Will all operators adopt this standard?
- Which operators will adopt LTE?
- What are the key reasons is device maker’s work with operators to customized LTE services?
- What is the next major milestone in the evolution LTE & LTE-Advanced Technology?
- Is the future of 4G LTE Advanced networks in cloud computing?
- Will their implementation ensure a smooth migration for operational mobile networks from LTE to 4G?
- Do you know about Video Over to LTE? Define Video Broadcast Services and Video Traffic Forecasts?
- Which is the most reliable LTE duplex mode? TDD or FDD? Which are the countries opting for LTE TDD?
- What forces FDD 3G countries to go for LTE TDD?
- What is the technology to devised solution of operators seeking a standardized system for transferring voice traffic over LTE and which one is Successful Complete this innovation?
- What are the main functional decomposition principles of LTE Network Architecture Evolution and the roadmap of LTE Femtocells Adaptation in the Multimode?
- Will LTE generate more revenue for operators and vendors?
- How capex and Opex requirements can affects LTE infrastructure market?
- What is the main Operator Spectrum Bandwidth and Frequency band for LTE Planning?
- What are the major Roaming challenges and problems faced by 3G and 4G LTE network operators?
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1. Executive Summary
1.1 Introduction

2. World Wide Market Overview Worldwide 4G LTE Advanced
2.1 Purpose of the Research Report
2.2 Report Structure and its Scope
2.3 Market overview & Future Technology.
2.4 Is the MNOs Ready to accept Future approaches 4G
2.5 MNOs 4G LTE Application Strategy 2016-2020
2.6 Worldwide 4G LTE Network Deployments Status
Table 1 Latin America 4G LTE Network Development Status
Table 2 Canada 4G LTE Network Development Status
Table 3 USA 4G LTE Network Developments
Table 4 Africa 4G LTE Network Development Status
Table 5 Asia Pacific 4G LTE Network Development Status
Table 6 Eastern Europe 4G LTE Network Development Status
Table 7 Western Europe 4G LTE Network Development Status
Table 8 Middle East 4G LTE Network Development Status
2.7 Is this the Right Time to Launch 4G LTE?
2.8 Is there really a Need of 4G LTE or it is just Market Filiations?
2.9 MNOs Benefits: Evaluation of ARPU with Next Generation Apps 4G LTE (2016-2020)
2.10 4G LTE Devices Evolution and Handset Market Overview
2.11 4G LTE Network Management Challenges and Opportunities

3. Worldwide 4G LTE Advanced Subscriber Growth 2016-2020, 4G Evolution And Device Market Growth Strategies 2016-2020
3.1 Global4G LTE Subscriber Forecast 2016-2020
3.1.1 Existing 2G/3G/W-CDMA/HSPA/ WiMAX/LTE Subscribers
3.2 Future Growth Prospects for Legacy Network Subscribers
3.2.1 Future Growth Prospects for WiMAX Subscribers
3.2.2 Future Growth Prospects for LTE Subscribers C
hart 1 Growth in LTE Subscriber Base
Chart 2 Growth of New Subscribers with LTE (Region Wise)
Chart 3 Global 4G LTE Advanced Forecast on Subscriber Base 2016-2020 (US$, Billions)
Chart 4 Asia Pacific 4G LTE Advanced Subscriber Forecast 2016-2020 (US$, Billions)
Chart 5 Europe 4G LTE Advanced Subscriber Forecast 2016-2020 (US$, Billions)
Chart 6 North America 4G LTE Advanced Subscriber Forecast 2016-2020 (US$,Billions)
Chart 7 Latin America 4G LTE Advanced Subscriber Forecast 2016-2020 (US$,Billions)
Chart 8 Middle East 4G LTE AdvancedSubscriber Forecast 2016-2020 (US$,Billions)
Chart 9 Africa 4G LTE AdvancedSubscriber Forecast 2016-2020 (US$,Billions)
3.3 LTE Forecast, Infrastructure and Market Trend
3.4 Comparison between 2G, 3G, Wimax and 4G LTE
3.5 Effect of 2G, 3G, 4G and Wimax in the Market
3.6 4G LTE Device and SmartphoneMarket 2016-2020
3.7 LTE Device Ecosystem Growth Forecast by device types
Chart 10 4G LTE AdvancedDevice Market Subscriber Forecast 2016-2020 (US$, Billions)
3.8 Why can 4G be achiever? Know the bearing Factors?
3.9 Cloud computing perfect pair of Next Generation Technology Innovation LTE
3.10 4G LTE Device Maker Market Strategies 3.11 LTE Growth Benefits for MNOs and End User
3.11.1 New Improvement in Coverage and Capacity
3.11.2 Increase volume of ARPU, Reduction in CapEx/OpEx
3.11.3 Additional merits over Competitors
3.11.4 Cheaper call rates VoLTE
3.11.5 Customer Satisfaction

4. LTE Advanced Infrastructure Providers, LTE-Advanced Technology, Data /Voice Services & 5G Mobile Technology Development
4.1 Top LTE Advanced Infrastructure Providers
Chart 11 LTEInfrastructure Sales 2016-2020
Chart 12 Current Vendor Share in Infrastructure Market 2016
4.2 LTE& LTE-Advanced Fundamentals
4.3 Cellular Standard Technology Products for LTE / LTE-Advanced
4.3.1 LTE Cellular Network Speed limits
4.4 LTE Advanced Development History, Key Features and Advanced Technologies
4.4.1 4G LTE Advanced Development Overview
Table 9 4G LTE Advanced Development
4.4.2 4G LTE Advanced Development Key Features and Technologies
4.5 Subscribers Split - Data / Voice Services with LTE 2016-2020
Chart 13 Subscriber Base Split: Voice / Data Usage 2016-2020
4.6 What is OFDM? - Its variants, synchronization
4.7 Comparison Between OFDMA, OFDM vs CDMA
4.8 What is MIMO? Its development and history
4.9 MIMO basics, formats-MISO, MU-MIMIO, SIMO, SISO
4.10 Why should be the requirements of 5G Network Technology?
4.11 Future Challenges of 5G Network Technology
4.12 5G Mobile Technology Architecture
4.13 Major Key Factors of 5G Technology Developments
Table 10 Comparison between 3G, 4G and 5G Technology

5. LTE Smartphones & Devices Market, Vendor Market Shares, 4G LTE Market Deployments roadmap, Cloud Storage, Worldwide HSPA-LTE Market Subscriber & Mobile Data Traffic Forecast 2016-2020
5.1 Outstanding Features of LTE Smartphones and Devices
5.1.1 Multiple Network Support and Security Authentication
5.1.2 Automatic Frequency Modes and International Roaming
5.1.3 Support VOIP/ TDD-LTE/ FDD-LTE and Seamless Global Coverage
5.2 LTE Device maker Strategies and Challenges, Consumer Electronics
5.2.1 LTE Devices Challenges and Trends
5.2.2 LTE Device Makers Strategies
5.2.3 LTE Manufactures Launch New Devices
Table 11 4G LTE New Devices Announced Frequency Variants
Chart 14 4G LTE User Devices Growth
5.3 Global LTE 4G Vendors Market Share in the world
5.3.1 Samsung
5.3.2 Apple
5.3.3 Huawei
5.3.4 Xiaomi
5.3.5 LG
5.3.6 Oppo
5.4 Which one is top Competitor of Samsung?
Table 12 Global Top Smartphone Vendors Market Share
5.5 4G LTE Device Users Overview
5.5.1 4G LTE Sales Volume 2016-2020, (US$, Millions)
5.5.2 4G LTE Network Subscribers 2016-2020, (US$, Millions)
5.6 Future Mobile Networks and Mobile Data Beyond 4G LTE
5.6.1 Strategies for future mobile network
5.6.2 Yota (Russia) 4G LTE Mobile Network Strategy
5.6.3 Yota (Russia) FutureDevice Market
5.6.4 Beeline (Russia)
5.6.5 Leo Telecom (Laos)
5.6.6 Mena Telecom (Bahrain)
5.6.7 VIVA (Bahrain)
5.7 4G LTE Next generation M2M Applications
5.8 4G LTE Standards Groups
5.8.1 3GPP Scope
Table 13 3GPP Generation Forecast System
5.8.2 HSPA+, LTE Status and Enhancements
Table 14 HSPA+, LTE Status and Enhancements Process
5.9 Worldwide HSPA-LTE Market Subscriber Forecast 2016-2020
Chart 15 Worldwide HSPA-LTE Market Subscriber Forecast 2016-2020
5.10 Worldwide Mobile Data Traffic Forecast 2016-2020
Chart 16 Worldwide Mobile Data Traffic Forecast 2016-2020
Chart 17: Worldwide Mobile Market Share Subscriptions Forecast 2016-2020
5.11 Africa 4G LTE Market Deployments Roadmaps
5.11.1 South Africa 4G LTE Market Deployment Overview
5.11.2 Zamtel and MTN (Zambia) 4G LTE Technology Strategy
5.11.3 4G LTE Market in Nigeria
5.12 Africa 4G LTE Market Ready to Go
5.12.1 YooMee TDD LTE Deployment Strategies
5.13 Africa MNOs new challenges
5.13.1 VoLTE, Rollout Spectrum
5.14 Africa Future Unique in LTE Market

6. LTE 4G Advance Future Deployment - TDD LTE And FDD LTE, Worldwide Spectrum Frequency Bands, Ecosystem Development, Adoption Of TD-LTE Market Forecast 2016-2020
6.1 LTE Deployment Strategies, Challenges and Regional Forecasts 2016-2020
6.1.2 Technical Strategies
6.1.3 Multi Standard RAN
6.1.4 Distinct LTE Overlay Strategy
6.1.5 Understanding Single and Multi-Standard RAN Solutions
Table 15 Difference in Single & Multi-Standard RAN
6.1.6 Analytical Strategies
6.2 Deployment Timelines for LTE Networks
6.3 4G LTE Deployment Methods
6.4 MNOs Approach towards LTE Deployment
Chart 18 MNOs Approach towards LTE Deployment
6.5 4G LTE Deployment Future - TD and FDD
6.5.1 TD-LTE and FD-LTE Market Deployments
6.5.2 3G Vs FDD LTE Vs TD-LTE, 4G in China
6.5.3 TD-LTE Adoption in Asia Market
6.6 TD-LTE Ecosystem Development in Asian market
Table 16 TD-LTE Ecosystem Development in Asian market
Chart 19: TDD-LTE and FD-LTE Asia Pacific Market Forecast
6.7 TD LTE Deployments in South Africa
6.8 TD-LTE Single Mode, Multimode Chipsets and Market Share
6.9 TDD-LTE and FDD-LTE frequency bands
6.10 MNOs Availability & use-ability Forecast 3.5/3.6 GHz Spectrum by Region
Table 17 Countries & Regions wise Spectrum 42 & 43 Bands
6.10.1 North America
6.10.2 Latin America
6.10.3 Europe
6.10.4 Asia Pacific
6.10.5 Africa
6.10.6 Middle East
Table 18 MNOs/ MVNOs Status to LTE Bands Allocations
6.11 MNOs Plans for 3.5GHz LTE TDD networks
Table 19 MNOs/MVNOs Future Planned to LTE Bands Allocations

7. 4G LTE Advanced Post Deployment Challenges, Worldwide 4G LTE Voice Deployments, LTE Apps and Platforms, MNOs Strategy for Spectrum Issues, 4G LTE Network Spectrum Deployments 2016-2020
7.1 LTE Post-Deployment Challenges
7.2 4G LTE Voice Network Deployments
Table 20 Worldwide 4G LTE Voice Network Deployments
7.3 List of LTE Apps and Platforms
Table 21 List of LTE Enabled Applications and Platforms
7.4 Mobile Apps Usage 2016-2020
Table 22 Scope of LTE Apps in ARPU and Subscriber Growth
Chart 20 World Wide App/ Data Revenue and Forecasts with LTE
2016-2020 7.5 Scope of Partnerships for Development of LTE Apps
7.6 Mobile Video
7.6.1 Location Based Services
Chart 21 4G LTE Network Spectrum Deployments 2016-2020
7.7 Licensing and Spectrum Harmonization
7.7.1 Spectrum Harmonization is challenges for LTE
7.7.2 Digital Dividend
7.7.3 2G/3G Re-Farming
7.7.4 2.6 GHz Spectrum
Table 23 Spectrum Analysis for Future LTE Deployments
7.7.5 Spectrum Utilization
Chart 22 Spectrum Utilization
7.8 LTE Network Planned, Spectrum Demand and Spectrum Supply
7.9 Voice over LTE Technology
7.10 4G LTE Post-Deployment operational Benefits
7.11 Will be Wi-Fi, WiMAX and ADSL affect 4G LTE Deployment Plans
7.12 How does a spectrum issue affect MNOs deployment strategies?

8. LTE Network Architecture Evolution, Worldwide LTE Network Infrastructure Revenue, LTE Backhaul Network and Femtocell Status 2016-2020
8.1 Understanding the LTE Architecture
8.2 Fundamental Elements of LTENetworks
8.2.1 Technical Necessities for Effective eNodeB
8.2.2 Types of eNodeB
8.2.3 Backhaul Solutions
8.2.4 Multi- Standard RANs
8.2.5 Distinct LTE Overlay Solutions
8.2.6 MIMO (Multiple Input Multiple Output)
8.2.7 Evolved Packet Core
8.2.8 Flat Network Architecture
Table 24 Elements of LTE Networks
Table 25 LTE Network Architecture 2015
8.3 LTE Market, Network Infrastructure Elements and Revenue
Chart 23 Worldwide LTE Network Infrastructure Revenue 2016-2020
8.4LTE proves to be Un-Successful? Alternative Strategies For MNOs
8.5 Femtocell Solution
8.5.1 LTE Femtocells
8.5.2 LTE Femtocells, its Demand and advantages for user
Chart 24 Future LTE Femtocell Market Status 2016-2020
Chart 25 Globally Femtocell Revenue Forecast Status 2016-2020
8.6 4G LTE RAN Vendors
8.6.1 Alcatel-Lucent
8.6.2 Ericsson
8.6.3 Huawei
8.6.4 Nokia Siemens Networks
Chart 26 Worldwide Vendor LTE Radio Access Network
8.7 LTE Backhaul Network
8.8 Requirement of LTE 4G Backhaul Network
8.8.1 Fiber Backhaul and Microwave Backhaul
Table 26 VAS Comparison of Current and LTE Networks
8.9 Value Added Services in LTE
8.9.1 P2F Messaging and VOIP
8.9.2 Internet Browsing and Online Shopping Apps
8.9.3 Video Messaging and Video calling Apps
8.9.4 P2P Video Chatting 8.9.5 Virtual and Remote Education, Authentic Banking
8.9.6 Mcommerce and mPayments
8.9.7 Interviews and Seminars

9. Worldwide Networks ARPU/ Revenue, 4G Mobile Broadband Strategy and Technical LTE Networks, Backhaul Evolution,CapEx/ OpEx requirements 2016-2020
9.1 Worldwide Network’s Present ARPU/ Revenue
9.2 Worldwide 4G Network’s Future ARPU/ Revenue
9.3 Worldwide 4G Networks Current ARPU/ Revenue
9.4 Worldwide Present 3G ARPU/ Revenue
9.5 Global market 4G LTE Mobile Broadband Pricing Strategies
9.6 Ready to Increase 4G LTE - More Services in Cloud
9.7 4G LTE Unlimited Data Pricing Strategy
9.8 Backhaul Evolution Strategies for LTE Operators
9.9 4G LTE Mobile Broadband Strategies 2016 - 2020
9.9.1 Verizon Wireless
9.10 Difference between CAPEX and OPEX
9.10.1 Models of CAPAX and OPEX and its Comparative Analysis
Table 27 Comparison Analysis Models of CAPAX and OPEX
9.10.2 Benefit for MNOs: Evaluation of ARPU, OpEx/CapEx and CAGR 2016-2020
9.10.3 CapEx Savings with LTE
9.10.4 OpEx Savings with LTE
Table 28 OpEx Savings with LTE Networks
9.11 Conclusions on LTE Market Strategie

10. LTE Roaming Architecture, Roaming Challenge MNOs, Mobile Data Card, IMS Voice Roaming, Prepaid Charging and Postpaid Charging, International Roaming Strategies 2016-2020
10.1 LTE High Level Roaming Architecture-Target Voice-over
Chart 27 LTE 4G High Level Roaming Architecture
10.2 LTE 4G Roaming Challenge MNOs
10.3 LTE Data-Card Roaming, IMS Voice Roaming and IPX Progress- its Carriers
10.4 LTE Roaming Prepaid and Postpaid Charging
10.5 Complexities of 4G Roaming -Tata Communications
10.6 4G LTE International Roaming Strategies - Verizon Wireless
10.7 Qualcomm Solution on 4G LTE Roaming
10.8 4G LTE Roaming in Europe - TeliaSonera
10.9 SK Telecom - LTE International Roaming
10.10 Batelco Strategy on 4G LTE Data Roaming
10.11 Everything Everywhere Tie-up with orange for 4G LTE Roaming
10.12 Tango and Belgacom Mobile LTE Roaming Strategy Worldwide Voice over LTEAdvanced Deployment, 4G LTE - Over Voice Trials and Rollouts and Top 4G LTE Smartphones 2016-2017
11.1 Voice over LTE Technology
11.1.1 Circuit Switch Fallback (CS Fallback)
11.1.2 VOIP Approach as Proposed by NSN
11.1.3 IMS based VOIP
11.1.4 Cheaper call rates: VoLTE Approach
11.2 Worldwide VoLTE over Voice Trials and Plans
11.2.1 Verizon Wireless
11.2.2 AT&T
11.2.3 T-Mobile
11.2.4 Ericsson
11.2.5 Spirent Communications
11.2.6 Ooredoo
11.3 Worldwide Launch 4G LTE Rollouts 2015
11.3.1 MTN Nigeria
11.3.2 Digicel Jamaica
11.3.3 Telenor
11.4 Top 4G LTE Mobile Hotspots 2016
11.5 Most exciting Smartphones Launches in 2016-2017
11.5.1 Apple
11.5.2 Lenovo
11.5.3 Motorola
11.5.4 HTC
11.5.5 Nexus
11.5.6 LG
11.5.7 Microsoft
11.5.8 Samsung
11.5.9 Sony
11.5.10 Xiaomi

12. 4G LTE Forecast of eMBMS, LTE Broadcasting benefits, solutions & opportunities-MBMS LTE Network Architecture, Future TV/ Video Over to LTE, LTE Broadcast Impact on Mobile Data Demand 2016-2020
12.1 eMBMS Overview
12.1.1 What is the MBMS role in LTE Networks?
12.2 Advantages of LTE Broadcast
12.3 Future Prospective and Approaches of LTE Broadcast
12.3.1 Key Impacts of LTE Broadcast
Table 29 Impact of LTE Broadcast on Mobile Data
Chart 28 eMBMS HighestRate Deliver Forecast by Areas
12.4 MBMS Service Deployment in 4G LTE Network
12.4.1 Single Frequency Network
12.5 E-MBMS LTE Network Architecture
Chart 29 E-MBMS LTE Network Architecture
12.6 4G LTE Network Strategies for Video Broadcast Transmission
12.7 Are you ready to use Future TV/ Video Over to LTE Broadcast Services?
Chart 30 MNOs Business Models benefits with LTE Broadcast Services
12.8 LTE Broadcast Network Deployment Solutions and Opportunities
Chart 31 LTE Broadcast Network Deployment Solutions
12.9 Video Demand services development on 4G LTE networks
12.9.1 Video distribution on 4G LTE networks
12.9.2 Video Traffic forecasts 2015- 2019

13. LTE Data Offloading, Wi-Fi Offloading Architecture and Worldwide 4G Network Growth, Android Market share 2016-2020
13.1 Implementation LTE Data Offloading
13.2 Data Offloading Solution for Mobile Broadband LTE Networks
Chart 32 Mobile Data Offloading Solution Architecture
13.3 Wi-Fi Offload Architecture
Chart 33 Wi-Fi Offloading Network Architecture
13.4 Mobile Data Offload Wi-Fi Access Networks from 3G, 4G LTE
Chart 34 Mobile Data Offloading Traffic in India
13.5 Android Market, Applications and Market share
Table 30 Global Smartfone OS Market share & Shioment Volumes Forecast 2016-2020
13.6 The Future of Worldwide App Market
13.7 Android, iOS Market and Window Market share
Table 31 Comparison between Android Market and iOS Market
Chart 35 Global Apps Revenue Forecast 2016-2020 (US$ Billion)

14. Global 4G LTE Advanced Revenues, LTE Infrastructure Forecast 2016-2020
Chart 36 Global 4G LTE -Revenues Forecast 2016-2020, (In Billions)
Table 32 Global 4G LTE Mobile Connections Forecast, By region 2016-2020, (US$ Billions)
Chart 37 Global 4G LTE Mobile Connections Forecast, By region 2016-2020, (US$ Billions)
Chart 38 Asia Pacific 4G LTE Mobile Connections Forecast, By region 2016-2020, (US$, Billions)
Chart 39 C.Europe, ME & Africa 4G LTE Mobile Connections Forecast, By region 2016-2020, (US$, Billions)
Chart 40 North America 4G LTE Mobile Connections Forecast, By region 2016-2020, (US$, Billions)
Chart 41Latin America 4G LTE Mobile Connections Forecast, By region 2016-2020, (US$, Billions)
Chart 42 Westurn Europe 4G LTE Mobile Connections Forecast, By region 2016-2020, (US$, Billions)
Chart 43 Global and North America 4G LTE Advanced Infrastructure Forecast 2016-2020, (In Billions)

15. G LTE Next-Generation Security to Protect Networks, RAN and Backhaul Come with Advance Security
15.1 Mobile Network Security in 4G LTE.
15.2 Why Mobile Network Security is an operators concerns
15.3 World Strongest and Fastest 4G LTE Security
Table 33 4G LTE 21600 Carrier Security System V/S 61000-Carrier Security System
15.4 4G LTE challenges to Mobile Security in IP Environment
15.5 Security threats & Malware impact on Mobile Devices
15.6 RAN & Backhaul come with Advance Security
15.7 Different type of Attackers Effects of Mobile Security & its element to protect networks
Table 34 Different Impacts on Mobile Attacks

16. Are you ready to explore the Future 4G LTE Advanced Market 2016 -2020
16.1 The Future Market Growth 4G LTE 2016- 2020
16.2 LTE 4Gis a Strong Adoption for Upcoming years
16.3 Who will be the Key Vendors in the LTEHandset Market?
16.4 Factors Effecting MNOs Decisions to Deploy LTE Networks
16.5 Next Generation Roadmaps and Prospects Towards 4G LTE
16.6 LTE 4G Effect on Market: Vendors, MNOs and Subscribers Forecasts 2016-2020
16.7 A Big Question LTE 4G Acceptance
16.8 LTE 4GMass Market Adaptation: Scaled Analysis

17. Recommendations and Conclusion
17.1 Focus on Worldwide Potential Regions
17.2 Classify Existing and Forthcoming Subscriber Base
17.3 Identify the Right Time to Market
17.4 Key Findings of the Report
17.5 Summary
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This Research Report provides an in-depth view on the technologies being considered for Long Term Evolution- Advanced (LTE-Advanced).

Today MNOs need 4G LTE because in the time moving global economy, we are communicating at faster and faster rates. Like Quick voice, video, data, text and chat are conveniently available at our fingertips.

The latest such technology, 4G LTE provides substantial performance improvements over previous mobile technologies, and offers the promise that connectivity will no longer be a barrier to realising the benefits of enterprise mobility. LTE is the Today demand on mobile network technology, and the fastest growing standard in telecoms history. The results of the testing clearly showed 4G LTE to perform significantly better than 3G services. Today the market demand has grown considerably for mobile 4G LTE with consumers and businesses now enjoying the full benefits of emailing and surfing browsing on the move. The growing demands of the internet for both human-to-human, human-to machine and machine-to-machine communications.

Our research report summarizes the history of LTE networking, and how LTE’s bandwidth and latency improvements will change the face of the web. LTE will accelerate and enhance numerous technology trends including long-mile connections, multimedia, web applications, network security and cloud computing. cloud services being accessed via wireless communication networks such as Wi-Fi and 4G LTE. LTE has broad commitment from both service providers and network equipment providers around the world. it is expected that LTE continues to gain traction for three reasons:

LTE may not be the foremost choice for some Greenfield MNOs in the western and emerging Markets but 4G Broadband will offer a competitive edge to these MNOs due to cheaper rates.

Due to lower broadband penetration, 70% of WiMAX deployments will happen in the emerging Markets like Africa followed by Asia Pacific and Middle East.

MNOs who are delaying decisions to deploy LTE Networks will face a strong competition from established leaders after 2016. However, CapEx for LTE deployment is expected to drop by 6-10 percentages.

First one - both GSM and CDMA operators can migrate to LTE and It is expected to become the single standard for mobile networks.

Second - LTE can be deployed at lower cost than 3G Network because it more easily allows network sharing and uses a simplified IP architecture.

Third and last one - LTE can be deployed using a small amount of spectrum, or alongside existing networks.

The generic opportunities and challenges LTE technology brings to operators and how to adopt a suitable migration strategy. Two of the major concerns have been how and when voice services could be offered and the availability of device portfolios. Voice over LTE will indeed happen soon, and could bring a boost to operators.

Most people in the industry agree that LTE is the next step in the network evolution. LTE technology is undoubtedly the most cost effective answer to today’s unprecedented demand for mobile bandwidth With LTE; subscriber data can no longer be looked at as an in-network repository.

LTE offers great promise in terms of providing more bandwidth at a lower cost, changing the customer experience, increasing average revenue per unit (ARPU) from ever increasingly bandwidth users, and creating new markets. Subscribers are connecting via different access methods and with multiple devices. Therefore, operators need to control service delivery in real-time, regardless of the network involved.

LTE is opening a world of unlimited choices to mobile subscribers. With LTE subscribers have the possibility to access myriad services and applications anywhere, anytime. This is a great opportunity for telecoms, and also poses a material threat as this constant open IP broadband connectivity to the Internet amplifies the risk of being completely disinter mediated and relegated to “commodity provider” operating profits.

In response to fast growing customer demand for data services, operators are deploying new evolutions of IP networks, like LTE. However, the demand and costs for these new services is widely anticipated to outstrip the revenues.

LTE is the next major step in mobile radio communications, and was introduced in orthogonal frequency division multiplexing (OFDM) as its radio access technology, together with advanced antenna technologies. 4G LTE impressive speed increase is achieved with the use of OFDM (Orthogonal Frequency Division Multiplexing), a transmission technology used by the likes of ADSL, Wi-Fi, DVB-T, DVB-H and DAB.

By 2016 there are expected to be close to 5 billion mobile broadband subscriptions worldwide. The majority of these will be served by HSPA and LTE networks. LTE is continuously being developed to make sure that future requirements and scenarios are being met and prepared for in the best way. The continuous development of LTE performance, to create increased bandwidth, higher capacity and better spectrum utilization, will bring about new potential revenue opportunities for the operator by providing new services, as well as economies of scale.

The first LTE-capable devices were USB dongles, as was the case with HSPA. Since then, however, we have seen a faster introduction of other devices taking place in a shorter time frame, such as laptops with embedded LTE, Wi-Fi, routers, smartphone and tablets.

Deployment of LTE-Advanced will bring even more enhancements to increase network performance and speed and utilization of spectral resources. Deployment of LTE infrastructure is as simple and cost-efficient as possible. For example, it should be possible to upgrade existing radio base stations to LTE using plug-in units, so that they become both dual-mode and dual-band. LTE rollouts gaining momentum, primarily in developed markets, worldwide telecom market rollout of its 4G LTE (long-term evolution)- HSPA+ service, which caters to the expected growth in mobile data usage, is expected to support revenue growth this year.

TD-LTE is playa important role, especially in the emerging markets. FD-LTE and TD-LTE are two different standards of 4G technology. TD-LTE is a cost-effective 4G solution that makes efficient use of the unpaired spectrum compared to FD-LTE, which requires paired spectrum. TD-LTE requires consideration of the available smartphone ecosystem and evaluation of dual-mode LTE chipsets. Network rollout as well as operation and management can be simplified with plug-and-play and self-optimizing features reducing both capex and opex for the operator

4G LTE wireless systems involves fundamental differences in the architecture and backhaul requirements for these networks. LTE systems are based on a flatter, all-packet (IP/Ethernet) architecture with significantly higher bandwidths than existing GSM 2G and UMTS 3G networks. 4G LTE is expected to transform the use of technology with regards to mobile consumers, healthcare, transportation, energy, security, agriculture, sales and payments industries and infrastructure.

Our report forecast that 4G LTE Subscriber base and revenues are set to grow rapidly, that was reaching fast. It provide comprehensive guide to the 4G LTE market 4G LTE Strategies and challenges, Subscribers Base, ARPU Device Market, Infrastructure and Spectrum Bandwidth and Frequency band for LTE Planning 2015-2019

It is believed that in the next six years the mobile broadband market will continue to expand on a global level, as an increasing number of businesses worldwide switches to mobile broadband networks in order to conduct daily business related tasks. Our report provides forecasts for the period 2015-2019 in terms of value for the worldwide 4G LTE market. The report also provides profiles of 200+ leading companies operating within the market. In addition, LTE markets are forecast and analyses over the period 2015, 2016-2019.
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- AT&T
- Apple
- Beeline (Russia)
- Digicel Jamaica
- Ericsson
- Huawei
- LG
- Lenovo
- Leo Telecom (Laos)
- MTN Nigeria
- Mena Telecom (Bahrain)
- Microsoft
- Motorola
- Nexus
- Ooredoo
- Oppo
- Samsung
- Sony
- Spirent Communications
- T-Mobile
- Telenor
- VIVA (Bahrain)
- Verizon Wireless
- Xiaomi
- YooMee TDD
- Yota (Russia)
- Zamtel and MTN (Zambia)
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