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LTE無線インフラストラクチャ市場のシェア、戦略、予測 - コアネットワークとバックホールに対応する次世代ネットワークの構築

LTE Wireless Infrastructure Market Shares, Market Strategy, and Market Forecasts, 2013 to 2019: Building out next generation networks for the core and backhaul

発行 WinterGreen Research, Inc. 商品コード 284615
出版日 ページ情報 英文 410 Pages
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LTE無線インフラストラクチャ市場のシェア、戦略、予測 - コアネットワークとバックホールに対応する次世代ネットワークの構築 LTE Wireless Infrastructure Market Shares, Market Strategy, and Market Forecasts, 2013 to 2019: Building out next generation networks for the core and backhaul
出版日: 2013年10月01日 ページ情報: 英文 410 Pages
概要

スマートフォンに対応するコアネットワークとバックホール回線の整備が進むなか、世界のLTE無線インフラストラクチャ市場は急速に成長しつつあり、今後もこの分野に対する投資は続くと見られています。LTEは、大量のトラフィックを効率的に処理する手段をサービスプロバイダーに提供する技術であり、ネットワーク上で動画や画像が活発にやり取りされるようになり、ユーザー1人あたりのトラフィックの平均スループットが倍増するなか、LTE無線インフラストラクチャの整備も急ピッチで進められています。

当レポートは、世界のLTE無線インフラストラクチャ市場を分析し、今後の展望を示したもので、各社製品の紹介やLTEインフラストラクチャ技術の解説に加え、主要企業の詳細なプロファイルも盛り込み、概略下記の構成でお届けいたします。

第1章 LTEインフラストラクチャ市場の現状と力学

  • 通信業界
  • 通信機器メーカー
  • 情報通信技術に対応するスマートインフラストラクチャの可能性
  • 情報通信技術の変化
  • 世界経済フォーラムの調査
  • ネットワークの種類
    • CDMA(Code Division Multiple Access)
    • CDMA2000
    • CDMA2000の進化
    • GSM(Global System for Mobile Communications)
    • W-CDMA(Wideband Code Division Multiple Access)とLTE(Long-Term Evolution)
  • 世界経済
  • 収益事業化までの時間を短縮するクラウド技術
  • アプリケーションサーバー仮想システム、クラスタリング、フェイルオーバー、ロードバランシング
  • アプリケーションサーバーがもたらす競争上の優位性
  • SOAの再利用可能なソフトウェアコンポーネント
  • インフラストラクチャスイッチ
  • Javaの生産性向上

第2章 LTE市場のシェアと予測

  • 市場の成長促進要因
  • 各社の市場シェア
  • 市場予測
  • 無線インフラストラクチャの市場区分
  • LTE市場の予測
  • ソフトウェアデファインドネットワーク(SDN)とネットワーク機能仮想化(NFV)

第3章 各社の製品

  • Alcatel Lucent
  • Ericsson
  • Nokia Siemens Networks
  • Huawei
  • Samsung
  • 富士通
  • Radisys Products
  • ZTE
  • TelLabs

第4章 LTEインフラストラクチャ技術

  • 世界の携帯電話加入者
  • 無線インフラストラクチャの帯域幅
  • 標準
  • Ericssonによる技術開発の展望
  • バックホールネットワークのアーキテクチャ
  • 高速ダウンリンクパケットアクセス
  • CDMAネットワークでの高品位音声通話
  • 規制遵守のためのソリューション
  • Huaweiのパイプ戦略
  • スモールセルアーキテクチャ

第5章 各社のプロファイル

  • Alcatel-Lucent
  • Antenova
  • Berkeley-Varitronics Systems
  • CDG
  • Cisco
  • Ericsson
  • 富士通
  • General Dynamics / IPWireless
  • Global Mobile Suppliers Association
  • Google
  • Huawei
  • Juniper
  • LG
  • Micro Mobio
  • MTI Mobile
  • NEC
  • Nokia
  • Nokia Siemens Networks
  • QRC Technologies
  • Qualcomm
  • Radisys
  • Repeaters Australia
  • Reactel
  • RF Hitec
  • Samsung
  • Siemens AG
  • Spirent Communications
  • TelLabs
  • TelNova Technologies
  • ZTE

図表

目次
Product Code: SH25711114

Worldwide LTE Wireless Infrastructure markets are poised to achieve significant growth as Building out core networks and backhaul for smart phones.

LTE has brought a reassessment of operator choices of Packet Core vendor. The LTE wireless infrastructure market is expected to see sustained investment. LTE provides service providers efficient ways to carry larger traffic volumes. 110MHz BW is going to be required by 2015. A 65MHz auction in April 2013 provided more bandwidth. Traffic average throughput per user is expected to double in 2013.

Video and image exchange is accounting for a large part of the growth in network usage. LTe has been an entry point for Ericsson among others. Ericsson offers high capacity multi-access and multi-application systems.

Ericsson offers the SSR 8000 family of smart services routers and a blade system. LTE has strengthened Ericsson market position with existing and new customers.

Demographic implications are endemic to the industry.

It took only 2.5 years for LTE to reach 90.2 percent of U.S. households 80.5 percent of the U.S. population can choose from five or more mobile operators.

There are 1,251 wired broadband operators in the U.S.

There are 1,472 network coverage patterns from 878 worldwide mobile operators.

A smart phone is not very smart if the infrastructure can't support its applications. In response to the high growth smart phone markets, wireless infrastructure promises to grow dramatically in the near term.. Wireless Infrastructure technologies include WiMax, LTE, 4G and HSPA. These technologies are driving much higher capacity from the base station back to the fiber core. Fiber core is putting extreme pressure on provider's infrastructure and backhaul networks.

WinterGreen Research predicts that the dramatic growth of wireless infrastructure is based on the growth of smart phones and apps. LTE wireless infrastructure markets at $3.9 billion in 2012, is anticipated to reach $78 billion by 2018.

According to Susan Eustis, lead author of the study, “LTE Wireless Infrastructure is being installed to upgrade core networks and upgrade backhaul and base stations to make systems more modern. Infrastructure for the Internet and for smart mobile devices creates demand for more sophisticated web development and web applications that in turn depend on more sophisticated infrastructure. Everything is going mobile. This evolution is driven by mobile smart phones and tablets that provide universal connectivity. Modern systems represent a significant aspect of Internet market evolution.”

Table of Contents

LTE Wireless Infrastructure Call to Action

1. LTE Infrastructure Market Description and Market Dynamics

  • 1.1. Communications Industry
    • 1.1.1. Combining Global Scale Advantages With Local Presence
    • 1.1.2. Design Of The Network Directly Affects Cost, Capacity, And Latency
    • 1.1.3. Ericsson Combining Global Scale Advantages With Local Presence
  • 1.2. Communications Equipment Manufacturers
    • 1.2.1. Communications Equipment Vendor Strategic Focus.
    • 1.2.2. Beyond ICT: Embracing The Next Digital Revolution: the Internet of Things
    • 1.2.3. Integration of the Digital And Physical Brings Digital Revolution and Need to Redefine What Work People Do
    • 1.2.4. Networks Bring Digital Government, Smarter Cities
    • 1.2.5. The Age of Digital Business
    • 1.2.6. Borderless Internet Gives Rise To A Digital Society
  • 1.3. Smart Infrastructure Opportunities For ICT
    • 1.3.1. IT Systems Evolving From Post-Processing To Real-Time Business Systems
    • 1.3.2. IT Enterprise Architecture Challenged to Process Huge Volumes Of Data
    • 1.3.3. Digital Society Replaces Low-bandwidth Networks
  • 1.4. ICT transformation
    • 1.4.1. Apps Market Expands
  • 1.5. World Economic Forum.
  • 1.6. Networks Segment
    • 1.6.1. CDMA (Code Division Multiple Access)
    • 1.6.2. CDMA2000:
    • 1.6.3. CDMA2000 Evolution Path:
    • 1.6.4. GSM (Global System for Mobile Communications)
    • 1.6.5. W-CDMA (Wideband Code Division Multiple Access)
    • LTE (Long-Term Evolution)
  • 1.7. Global Economy
    • 1.7.1. The IT Market
    • 1.7.2. New World Order Built On The Globally Integrated Enterprise
    • 1.7.3. Enterprise Information Accessed By Mobile Workers
  • 1.8. Cloud Technology Brings Rapid Time to Value
  • 1.9. Application Server Virtual Systems, Clustering, Fail-Over, And Load Balancing
    • 1.9.1. Cloud System Continuous Deployment Models
  • 1.10. Application Server Provides Competitive Advantage
  • 1.11. SOA Reusable Software Components
    • 1.11.1. SOA Community-Based Marketplaces
    • 1.11.2. Components Aimed At Developer Base
  • 1.12. Infrastructure Switch
    • 1.12.1. Market Change
  • 1.13. Increasing Java Productivity
    • 1.13.1. Increasing Developer Base

2. LTE Market Share and Market Forecast

  • 2.1. LTE Wireless Infrastructure Market Driving Forces
    • 2.1.1. Core LTE Wireless Infrastructure
    • 2.1.2. LTE Wireless Infrastructure Industry Challenges
    • 2.1.3. LTE Wireless Infrastructure Response to Market Challenges
    • 2.1.4. LTE Wireless Infrastructure Call to Action
    • 2.1.5. LTE Wireless Infrastructure Industry Addresses Fast-Paced Change
    • 2.1.6. LTE Reassessment Of Operator Choices
  • 2.2. LTE Market Shares
    • 2.2.1. Ericsson Leads LTE Market By Wide Margin
    • 2.2.2. Ericsson LTE
  • 2.3. Wireless Infrastructure Market Segments, LTE Market Forecasts
    • 2.3.1. LTE Devices
    • 2.3.2. Ericsson Has A Leading LTE Market Position
    • 2.3.3. Status of the Global LTE 1800 Market
    • 2.3.4. Samsung LTE
    • 2.3.5. Ericsson leads in LTE, But Rivals Huawei, ZTE and Samsung Gain
    • 2.3.6. Europe, China and India Ramp LTE investment in 2014 and 2015, Unlocking Opportunities To Grow LTE Revenue
  • 2.4. LTE Market Forecasts
  • 2.5. Software Defined Networking (SDN) and Network Function Virtualization (NFV)
    • 2.5.1. Software Defined Networking (SDN) and Network Function Virtualization (NFV) Reordering Of Market Share
    • 2.5.2. Mobile Packet Core
    • 2.5.3. Mobile Broadband1
    • 2.5.4. Small Cells Are Disruptive Technology In Networks

3. Wireless Infrastructure Product Description

  • 3.1. Alcatel Lucent
    • 3.1.1. Alcatel-Lucent Wireless Networks Segment
    • 3.1.2. Alcatel Lucent Korea
    • 3.1.3. Korea Broadband Infrastructure Wireless Projects
  • 3.2. Ericsson Wireless Infrastructure Products
    • 3.2.1. Ericsson Radio Base Station Platform Strength
    • 3.2.2. Mobile Broadband
    • 3.2.3. Ericsson EDGE (Enhanced Data Rates for Global Evolution) Benefits
    • 3.2.4. Ericsson EDGE Evolution
    • 3.2.5. Ericsson End-To-End Solutions For Major Mobile Communication Standards
    • 3.2.6. Ericsson Strategic Engagement Topics
    • 3.2.7. Ericsson EDGE Enhanced Mobile Networks
    • 3.2.8. Ericsson LTE Broadcast
    • 3.2.9. Ericsson Mobile Cloud Accelerator
    • 3.2.10. Ericsson Mobile Backhaul
    • 3.2.11. Ericsson Backhaul for Existing Radio Networks
    • 3.2.12. Ericsson SGSN-MME
    • 3.2.13. Ericsson Service-Aware Policy Controller
    • 3.2.14. Ericsson Mobile Switching
    • 3.2.15. Ericsson Application Enablement: Apps
    • 3.2.16. Ericsson Mobile Backhaul Solution
    • 3.2.17. Ericsson Blade Server Platform For Core Networks
    • 3.2.18. Ericsson Packet Core Platforms
  • 3.3. Nokia Siemens Networks
    • 3.3.1. Nokia Siemens Networks Evolved Packet Core (EPC)
    • 3.3.2. Nokia Siemens Networks Intelligent IP Edge
    • 3.3.3. Nokia Siemens Networks EPC Based On Open Core System
    • 3.3.4. Nokia Siemens Networks Flexi Network Gateway (Flexi NG)
    • 3.3.5. Nokia Siemens Networks PCS-5000 Policy Control Suite
    • 3.3.6. Nokia Siemens Networks Teams With Juniper Networks Carrier Ethernet Transport (CET)
    • 3.3.7. Nokia Siemens Networks CET Solution / Juniper Networks
    • Nokia Siemens Networks Router Product Partners
    • Nokia Siemens Networks Multiservice IP Backbone
    • 3.3.8. Nokia Siemens Networks Multiservice IP Backbone Solutions
  • 3.4. Huawei
    • 3.4.1. Huawei SingleBTS
    • Huawei Products & Application Scenarios
    • 3.4.2. Huawei Distributed Base Station
    • 3.4.3. Huawei Distributed Base Station Applications & Benefits
    • 3.4.4. Huawei SingleBTS Mobile Network Application Scenarios
    • 3.4.5. Huawei Core Network
    • 3.4.6. Huawei Applications-Depend on IP Platform To Meet The Varying
    • Needs For Network Evolution
    • Huawei Successfully Completed Voice Interoperability for LTE TDD to
    • CDMA Based on Qualcomm Snapdragon Processor
  • 3.5. Samsung
    • 3.5.1. Samsung LTE Innovation
    • Samsung TelecommunicationsWireless Systems
    • Samsung Small Cells
  • 3.6. Fujitsu
    • 3.6.1. Fujitsu LTE (Long Term Evolution) Solutions
    • 3.6.2. Fujitsu LTE Femtocell Systems
    • 3.6.3. Fujitsu BroadOne LTE Femtocell
    • 3.6.4. Fujtsu LTE Femtocell Target Areas
    • 3.6.5. Fujitsu LTE Femtocell Solutions
    • 3.6.6. Fujitsu LTE Femtocell Access Point
  • 3.7. Radisys Products
  • 3.8. ZTE
  • 3.9. TelLabs

4. LTE Infrastructure Technology

  • 4.1. Mobile Subscriptions Worldwide
  • 4.2. Bandwidth for Wireless Infrastructure
  • 4.3. Standards
    • 4.3.1. Qualcomm
    • 4.3.2. UMTS Forum
  • 4.4. Ericsson Technology Perspective
    • 4.4.1. Limited Bandwidth Giving Way to Expanded bandwidth
    • 4.4.2. Infrastructure At A Cell Site
  • 4.5. Backhaul Network Architecture
    • 4.5.1. Ericsson Standardization Work In The 3rd Generation Partnership Project (3GPP),
  • 4.6. High Speed Downlink Packet Access
  • 4.7. HD Voice Call On CDMA
  • 4.8. Regulatory Solutions
  • 4.9. Huawei Pipe Strategy
  • 4.10. Small-Cell Architectures
    • 4.10.1. Small Cells and LTE
    • 4.10.2. Smart Antenna Systems

5. LTE Company Description

  • 5.1. Alcatel-Lucent
    • 5.1.1. Alcatel-Lucent Research Arm Bell Labs
    • 5.1.2. Alcatel-Lucent Revenue
    • 5.1.3. Alcatel-Lucent Operating Model Focused On Core Products
    • 5.1.4. Alcatel-Lucent Organization
    • 5.1.5. Alcatel-Lucent Operating Segments:
    • 5.1.6. Alcatel-Lucent LTE
    • 5.1.7. Alcatel-Lucent Adaptation of the Business to the Industry
    • 5.1.8. Alcatel-Lucent Strategic Focus
    • 5.1.9. Alcatel-Lucent Revenue
    • 5.1.10. Alcatel-Lucent Operating Segments
    • 5.1.11. Alcatel-Lucent Networks Segment
    • 5.1.12. Alcatel-Lucent Optics Market Positions
    • 5.1.13. Alcatel-Lucent Wireless
    • 5.1.14. Alcatel-Lucent Wireline
    • 5.1.15. Alcatel Lucent Korea
    • 5.1.16. Alcatel-Lucent Revenue
  • 5.2. Antenova
  • 5.3. Berkeley-Varitronics Systems
  • 5.4. CDG
    • 5.4.1. CDMA2000 Evolution
    • 5.4.2. CDG Global Industry Organization
  • 5.5. Cisco
    • 5.5.1. Cisco Revenue
    • 5.5.2. Cisco Information Technology
    • 5.5.3. Cisco Virtualization
    • 5.5.4. Competitive Landscape In The Enterprise Data Center
    • 5.5.5. Cisco Architectural Approach
    • 5.5.6. Cisco Switching
    • 5.5.7. Cisco NGN Routing
    • 5.5.8. Cisco Collaboration
    • 5.5.9. Cisco Service Provider Video
    • 5.5.10. Cisco Wireless
    • 5.5.11. Cisco Security
    • 5.5.12. Cisco Data Center Products
    • 5.5.13. Cisco Other Products
    • 5.5.14. Cisco Systems Net Sales
    • 5.5.15. Cisco Systems Revenue by Segment
    • 5.5.16. Cisco Telepresence Systems Segment Net Sales
    • 5.5.17. Cisco Tops 10,000 Unified Computing System Customers
  • 5.6. Ericsson
    • 5.6.1. Ericsson Wireless Infrastructure Portfolio
    • 5.6.2. Ericsson Network Evolution
    • 5.6.3. Ericsson Revenue
    • Ericsson Revenue
  • 5.7. Fujitsu
    • 5.7.1. Fujitsu Revenue
    • 5.7.2. Fujitsu Technology Solutions Services
    • 5.7.3. Fujitsu Personal Computers
    • 5.7.4. Fujitsu Development and Production Facilities
    • 5.7.5. Fujitsu Corporate Strategy
    • 5.7.6. Fujitsu Revenue
    • 5.7.7. Fujitsu Interstage
    • 5.7.8. Fujitsu Acquires RunMyProcess Cloud Service Provider
    • 5.7.9. Fujitsu and Radisys Partnership ATCA Platform Support
  • 5.8. General Dynamics / IPWireless
    • 5.8.1. General Dynamics IP Wireless Handheld Option for the URC Transceivers
    • 5.8.2. General Dynamics
    • 5.8.3. General Dynamics Revenue
    • 5.8.4. General Dynamics Rifleman Radio and GD300 Go to Afghanistan with U.S. Army's 75th Ranger Regiment
    • 5.8.5. General Dynamics Light Tactical Vehicles
  • 5.8. General Dynamics Light Wheeled Armored Vehicles
    • 5.8.7. General Dynamics Medium Wheeled Armored Vehicles
    • 5.8.8. General Dynamics Infantry Fighting Vehicles / Medium Combat Vehicles
  • 5.9. Global Mobile Suppliers Association
  • 5.10. Google
    • 5.10.1. Google 2012 Corporate Highlights 332
    • 5.10.2. Google Search
    • 5.10.3. Google Revenue
    • 5.10.4. Google Second Quarter 2013 Results
    • 5.10.5. Google Revenues by Segment and Geography
    • 5.10.6. Google / Motorola
  • 5.11. Huawei
    • 5.11.1. Huawei Invests In The Pipe
    • 5.11.2. Huawei's Internet Protocol (IP) Pipe Strategy
    • 5.11.3. Huawei Focus On Customers
    • 5.11.4. Huawei Revenue
  • 5.12. Juniper
    • 5.12.1. Juniper Networks Strategy
    • 5.12.2. Juniper Networks Enterprise
    • 5.12.3. Juniper Networks Platform Strategy
    • 5.12.4. Juniper Revenue
  • 5.13. LG
    • 5.13.1. LG Home Entertainment Company
    • 5.13.2. LG Mobile Communications Company
    • 5.13.3. LG Home Appliance Company
    • 5.13.4. LG Air Conditioning and Energy Solution Company
    • 5.13.5. LG Technology Strategy
    • 5.13.6. LG Revenue
  • 5.14. Micro Mobio
  • 5.15. MTI Mobile
  • 5.16. NEC
    • 5.16.1. NEC Business Outline
    • 5.16.2. NEC Revenue
  • 5.17. Nokia
    • 5.17.1. Nokia-Microsoft Partnership
    • 5.17.2. Nokia Revenue
  • 5.18. Nokia Siemens Networks
    • 5.18.1. Nokia Acquires Siemens' Entire 50% Stake in The Joint Venture
    • 5.18.2. Nokia Siemens Networks Telco Cloud Technology
    • 5.18.3. Nokia Siemens Acquired Motorola Network Infrastructure Division
    • 5.18.4. Nokia Siemens Networks Revenue
  • 5.19. QRC Technologies
  • 5.20. Qualcomm
    • 5.20.1. Qualcomm Mobile & Computing
    • 5.20.2. QMC Offers Comprehensive Chipset Solutions
    • 5.20.3. Qualcomm Government Technologies
    • 5.20.4. Qualcomm Internet Services
  • 5.20. Qualcomm Ventures
    • 5.20.6. Qualcomm Revenue
    • 5.20.7. Qualcomm Up to 4x Increase Over CDMA2000's Capacity
  • 5.21. Radisys
    • 5.21.1. Radisys Business
    • 5.21.2. Radisys Revenue
    • 5.21.3. Radisys ATCA
  • 5.22. Repeaters Australia
    • 5.22.1. Repeater Improved Cellular Signal Coverage Area
  • 5.23. Reactel
  • 5.24. RF Hitec
  • 5.25. Samsung
    • 5.25.1. Samsung Finds Talent And Adapts Technology To Create Products
    • 5.25.2. Samsung Adapts to Change, Samsung Embraces Integrity
    • 5.25.3. Samsung Telecom Equipment Group
    • 5.25.4. Samsung Electronics Q2 2013 Revenue
    • 5.25.5. Samsung Memory Over Logic
  • 5.26. Siemens AG
  • 5.27. Spirent Communications
    • 5.27.1. Spirent Key Financials
    • 5.27.2. Spirent Business
    • 5.27.3. Spirent Service Assurance
    • 5.27.4. Spirtent Strategy
    • 5.27.5. Spirent Monitors Change, Identifies Trends
    • 5.27.6. Spirent Acquisitions
    • 5.27.7. Spirent Products
  • 5.28. TelLabs
    • 5.28.1. Tellabs® Mobile Solutions
    • 5.28.2. TelLabs Acquisitions
    • 5.28.3. TelLabs Revenue
    • 5.28.4. TelLabs Geographic Revenue
  • 5.29. TelNova Technologies
  • 5.30. ZTE
    • 5.30.1. ZTE Globally-Leading Provider Of Telecommunications Equipment
    • 5.30.2. ZTE Technology Innovation
    • 5.30.3. ZTE Revenue

List of Tables and Figures

  • Table ES-1: LTE Wireless Infrastructure Market Driving Forces
  • Table ES-2: LTE Wireless Infrastructure Industry Challenges
  • Table ES-3: LTE Wireless Infrastructure Response to Market Challenges
  • Table ES-4: LTE Wireless Infrastructure Industry Adaptation To Change
  • Table ES-5: LTE Wireless Infrastructure Industry Adaptations
  • Table ES-6: LTE Wireless Infrastructure Industry Imperatives
  • Table ES-7: LTE Market Shares, Dollars, Worldwide, 2012
  • Figure ES-8: LTE Wireless Infrastructure Market Forecasts, Dollars, Worldwide, 2013-2019
  • Figure 1-1: Ericsson Support for the Networked Society
  • Figure 1-2: Cloud Convergence of Information and Computing Technologies
  • Figure 1-3: Optical Internet Implements Flexible Information Transport
  • Figure 1-4: Infrastructure for Apps and Smart Devices
  • Table 1-5: Enterprise IT Architecture Changing
  • Figure 1-6: Smart Society Changes Brought By Terabit Networks
  • Figure 1-7: Apps Market Expands
  • Figure 1-8: World Economic Forum Comment on Convergence of Information Technology (IT) and Communications
  • Table 1-9: CDMA2000: Global Reach
  • Table 1-10: CDMA2000 Evolution Path:
  • Table 1-11: CDMA2000: Offering a Diverse and Affordable Selection of Devices
  • Table 1-12: Cloud System Continuous Deployment Models
  • Table 1-13: Java Based Application Server Functions
  • Table 1-13 (Continued): Java Based Application Server Functions
  • Table 1-14: SOA Market-Ready Components Business
  • Table 1-15: Application Server Product Functions
  • Table 2-1: LTE Wireless Infrastructure Market Driving Forces
  • Table 2-2: LTE Wireless Infrastructure Industry Challenges
  • Table 2-3: LTE Wireless Infrastructure Response to Market Challenges
  • Table 2-4: LTE Wireless Infrastructure Industry Adaptation To Change
  • Table 2-5: LTE Wireless Infrastructure Industry Adaptations
  • Table 2-6: LTE Wireless Infrastructure Industry Imperatives
  • Table 2-7: LTE Market Shares, Dollars, Worldwide, 2012
  • Figure 2-8: Wireless Infrastructure Market Segments, LTE Market Forecasts, Dollars, Worldwide, 2013-2019
  • Table 2-9: Wireless Infrastructure Market Segments, LTE Units and Dollars, Worldwide, 2013-2019
  • Table 2-10: LTE Device and Smart Phone Shipments Units and Dollars, Worldwide, 2013-2019
  • Figure 2-11: LTE 1800 Eco System
  • Figure 2-12: Global LTE 1800 Commitments
  • Figure 2-13: Spectrum Used by LTE
  • Table 2-14: Global LTE 1800 Market Aspects
  • Table 2-15: Status of the Global LTE1800 Market
  • Table 2-16: Global 23 LTE 1800 Network Deployments in Progress
  • Table 2-17: Motivations For Deploying LTE in 1800 MHz Spectrum
  • Figure 2-18: CDMA And LTE in the US
  • Figure 2-19: CDG LTE Initiatives
  • Figure 2-20: LTE Device Availability by Frequency
  • Figure 2-21: LTE Device Availability by Frequency
  • Figure 2-22: FDD-LTE Commercial Deployments
  • Figure 2-23: LTE Subscribers by Region
  • Figure 2-24: CDMA2000 and the LTE Industry
  • Figure 2-25: Wireless Infrastructure Evolution Path, CDMA, LTE, and WiFi
  • Table 2-26: LTE Market Drivers 2013-2015
  • Figure 2-27: LTE Market Drivers, 2013-2015
  • Figure 2-28: Wireless Infrastructure Market Segments, LTE Market Forecasts, Dollars, Worldwide, 2013-2019
  • Figure 2-29: CDG Global Connections Forecast
  • Table 2-30: CDG Global Connections in 2016
  • Table 2-31: Software Defined Networking (SDN) and Network Function Virtualization (NFV) Design Of The Network Issues
  • Figure 2-32: Smartphones Lead Wireless Infrastructure traffic Growth
  • Table 3-1: Alcatel-Lucent Operating Segments:
  • Table 3-2: Alcatel-Lucent Networks Segment Businesses:
  • Table 3-3: Alcatel-Lucent Key Next Generation Technologies
  • Table 3-4: Alcatel-Lucent Wireless
  • Table 3-5: Alcatel-Lucent Networks Segment - IP
  • Figure 3-6: Korea Broadband Wireless Infrastructure Projects
  • Figure 3-7: Alcatel Lucent Monthly Traffic per Technology Since LTE Launch
  • Table 3-8: Ericsson Wireless Infrastructure Platforms
  • Figure 3-9: Ericsson RBS 6000 Multi-Standard Platform Is For Radio Base Stations
  • Table 3-10: Aspects of Ericsson Support for Migration to LTE
  • Table 3-11: Ericsson EPC-LTE Offering
  • Table 3-12: Ericsson EDGE Enhanced Data Rates for Global Evolution
  • Figure 3-13: Ericsson Telecommunications Equipment And Services
  • Table 3-14: Ericsson Strategic Engagement Topics (SETs)
  • Table 3-15: Ericsson Mobile Broadband Solutions Offering
  • Table 3-16: Ericsson Mobile Backhaul Solution Functions:
  • Figure 3-17: Ericsson SM480 Smart Metro Ethernet Services Platform
  • Table 3-18: Ericsson SM 480 Metro Ethernet Service Transport Features
  • Figure 3-19: Ericsson Mobile Backhaul Switch SM480
  • Figure 3-20: Ericsson Mini Link CN
  • Table 3-21: Ericsson MINI-LINK CN Use Case Scenarios:
  • Figure 3-22: Ericsson Comparison MINI-LINK CN 210, 500 & 510
  • Table 3-23: Ericsson LTE Service Provider Network Deployment Technology Areas
  • Figure 3-26: Ericsson Base Station
  • Figure 3-27: Ericsson RBS 2103 - WiMAX360
  • Figure 3-28: Ericsson New Packet Core Platforms
  • Figure 3-30: Ericsson Core Network Nodes, the Ericsson Blade System and Smart Services Router
  • Figure 3-52: Huawei Typical application scenarios of the BTS3900
  • Figure 3- 53: Huawei Typical Outdoor Application Scenarios of the BTS3900A
  • Figure 3-54: Huawei Typical Indoor Application Scenario of the BTS3900L
  • Figure 3-55: Huawei Typical Pole and Wall Installation Scenarios of the DBS3900
  • Figure 3-56: Huawei Typical Tower Application Scenarios of the DBS3900
  • Figure 3-59: Fujitsu BroadOne LTE Femtocell Base Station
  • Figure 3-61: Fujitsu LTE Femtocell Solutions
  • Table 3-62: Fujitsu LTE Femtocell Access Point
  • Table 3-67: ZTE TD-LTE Features
  • Table 3-68: ZTE LTE FDD Features
  • Figure 4-1: Bandwidth for Wireless Infrastructure
  • Table 4-2: Network Traffic Units
  • Figure 4-3: CDMA, LTE, and WiFi Roadmap Evolution Path
  • Figure 4-4: LTE Interoperability Positioning
  • Figure 4-5: LTE Frequency Band Assignments
  • Figure 4-6: Projected LTE Global Spectrum Usage
  • Figure 4-7: Challenge to Support 3GPP and 3GPP2 Frequency Assignments
  • Figure 4-8: Bandwidth Spectrum Economies of Scale
  • Figure 4-9: LTE Device Availability by Frequency
  • Figure 4-10: Backhaul Network Architecture, Flow Delay, Jitter, Packet Loss, Continuity, Avaliability, Throughput, and Trafic Stats
  • Table 3-11: HD Voice Call On CDMA
  • Figure 4-12: Wireless Infrastructure Traffic Model
  • Table 5-1: Alcatel-Lucent Performance Program
  • Table 5-2: Alcatel-Lucent Operating Segments:
  • Table 5-3: Alcatel-Lucent Business Focus
  • Table 5-4: Alcatel-Lucent Operating Segments
  • Table 5-5: Alcatel-Lucent Business Organization
  • Table 5-6: Alcatel-Lucent Strategic Focus
  • Table 5-7: Alcatel-Lucent Communications Issues
  • Table 5-8: Alcatel-Lucent Communications Issue Solutions
  • Table 5-9: Alcatel-Lucent Communications Application Enablement
  • Table 5-10: Alcatel-Lucent Communications High Leverage NetworkTM (HLN) Enablement
  • Table 5-11: Alcatel-Lucent Operating Segments:
  • Table 5-12: Alcatel-Lucent Networks Segment Businesses:
  • Table 5-13: Alcatel-Lucent Key Next Generation Technologies
  • Table 5-14: Alcatel-Lucent Networks Segment - IP
  • Table 5-15: Alcatel-Lucent Optics Market Positions
  • Table 5-16: Alcatel-Lucent Wireless
  • Figure 5-17: Alcatel-Lucent 2012 Korea Broadband Infrastructure Projects
  • Figure 5-18: Korea Broadband Wireless Infrastructure Projects
  • Figure 5-19: Alcatel Lucent Monthly Traffic per Technology Since LTE Launch
  • Figure 5-20: Alcatel-Lucent In Korea
  • Figure 5-21: CDG Wireless Infrastructure Roadmap that Includes CDMA2000, LTE, and WiFi Technologies
  • Figure 5-22: Ericsson Version of its North American CDMA Share
  • Table 5-23: Ericsson Mobile Broadband Issues
  • Table 5-24: Ericsson Operating Segments
  • Table 5-25: Ericsson Networks
  • Table 5-26: Ericsson Networks Products And Solutions
  • Table 5-27: Regions Ericsson Primary Sales Channel
  • Figure 5-28: Fujitsu Main Products
  • Figure 5-29: Fujitsu Global Business
  • Figure 5-30: Fujitsu Geographical Market Participation
  • Figure 5-31: Fujitsu Global Alliances
  • Figure 5-32: Fujitsu Mixed IT Environments Forecasts
  • Table 5-33: Fujitsu Facts
  • Figure 5-39: IP Wireless Handheld Option for the URC Transceivers
  • Figure 5-40: General Dynamics URC Radio In A Vehicle Jerk-And-Run Capability
  • Figure 5-41: General Dynamics Pathmaker Group Networking Radios
  • Figure 5-42: General Dynamics Divisions
  • Figure 5-43: General Dynamics Eagle
  • Figure 5-44: General Dynamics Duro
  • Figure 5-45: General Dynamics Piranha 3
  • Figure 5-46: General Dynamics Pandur 6 x 6
  • Table 5-47: General Dynamics Pandur 6 x 6 Features
  • Figure 5-48: General Dynamics Pandur 8 x 8
  • Table 5-49: General Dynamics Pandur 8 x 8 Features
  • Figure 5-50: General Dynamics Piranha 5
  • Figure 5-51: General Dynamics Ascod
  • Figure 5-52: Mobile Broad Band Network Deployments, 2013
  • Figure 5-53: Mobile Broad Band Subscriptions, 2013
  • Figure 5-54: Commercial HSPA+ Networks
  • Figure 5-55: Commercial LTE Network Launches
  • Table 5-56: Huawei Different Business Groups (BGs)
  • Table 5-57: Juniper Networks Infrastructure Benefits
  • Table 5-58: Juniper Networks High-performance network infrastructure
  • Table 5-59: Nokia Siemens Networks Base Stations
  • Figure 5-60: Nokia Siemens Networks High Speed Internet Cost Reductions
  • Figure 5-61: Nokia Siemens Networks Zero Footprint Solution
  • Table 5-62: TelLabs Solutions Features
  • Table 5-63: Tellabs® Optical Solution Cost Reductions
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