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世界的なモバイルブロードバンドへの移行:3.5Gおよび4G(2010年)

3.5 G and 4G 2010 - The Move to Worldwide Mobile Broadband

発行 Visant Strategies, Inc. 商品コード 114738
出版日 ページ情報 英文 74 Pages - Tables/Figures 26
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世界的なモバイルブロードバンドへの移行:3.5Gおよび4G(2010年) 3.5 G and 4G 2010 - The Move to Worldwide Mobile Broadband
出版日: 2010年03月04日 ページ情報: 英文 74 Pages - Tables/Figures 26

当商品の販売は、2016年07月01日を持ちまして終了しました。

概要

当レポートでは、世界的な3.5Gおよび4Gネットワークへの移行動向について調査分析し、HSPA+、WiMAX、LTEの導入率・加入者数・サービス収益・デバイス収益・デバイス出荷数・デバイスASPなどの実績・予測(〜2015年)、規格・技術概要、帯域割当、プラットフォームの比較分析、主な影響因子、課題などをまとめ、概略下記の構成でお届けいたします。

第1章 エグゼクティブサマリー

第2章 HSPA+(EVOLVED HIGH SPEED PACKET ACCESS)

  • HSPA・HSPA+の定義
  • 規格・委員会
  • ステータス
  • 市場での販売までの時間
  • 支持母体
  • 各種発表/導入率
  • HSPAの主要技術 (Releases 5・6)
  • HSPA+の技術属性(Releases 7・8)
  • HSPA+の市場因子
  • HSPA+の各種データ・予測
    • 世界のWCDMA・HSDPA/HSUPA加入者数
    • 世界のHSPA+加入者数・収益
    • 世界のHSPA+加入者数:地域別
    • 世界のWCDMAデバイスの出荷量
    • 世界のHSPA+デバイスの出荷量・収益・ASP
    • 世界のHSPA+フェムトセルの加入者数・収益・ARPU
    • 世界のHSPA+フェムトセルデバイスの出荷量・収益・ASP
    • 世界のHSPA+基地局の出荷量・導入率・収益

第3章 WiMAX 802.16

  • 802.16とWiMAXの背景
  • 規格とタスクグループ
  • WiMAX Forum
  • 802.16 2004、802.16e-2005、WiMAXの特徴
  • 技術に関する考察
  • 市場に関する考察
  • 主要WiMAXキャリア
  • WiMAXの各種データ・予測
    • 世界のWiMAX固定&モバイル加入者数・収益
    • 世界のWiMAX固定&モバイル加入者数:地域別
    • 世界のWiMAX電話・CPE・モデムの出荷量, 収益・ASP
    • 世界のWiMAXフェムトセル加入者数・サービス収益
    • 世界のWiMAXフェムトセル出荷量・収益
    • 世界のWiMAX基地局の出荷量・導入率・収益

第4章 LTE

  • 定義:LTEとSAE
  • 成長牽引因子:LTEとSAE
  • LTE設計の目標
  • LTEのイネーブリング技術
  • LTEの現在のテスト状況・ステータス・市場での販売までの時間
  • LTEの支持母体
  • LTE関連契約・キャリア発表・導入率:2010年
  • 世界のLTE帯域割当
  • 技術概要
  • LTE Advanced
  • フェムトセル
  • LTE市場因子
  • コスト
  • 導入基盤
  • リスク
  • 現在のマクロ経済状況
  • 消費者デバイスにおけるLTE
  • LTEの各種データ・予測
    • 世界のLTEE加入者数・サービス収益
    • 世界のLTE加入者数:地域別
    • 世界のLTEデバイスの出荷量・収益
    • 世界のLTEフェムトセルの加入者数・収益
    • 世界のLTEフェムトセルデバイスの出荷量・収益・ASP
    • 世界のLTE基地局の出荷量・導入率・収益

図表

目次
Product Code: 0210

“3.5G and 4G 2010: The Move to Worldwide Mobile Broadband” juxtaposes the relative strengths and weaknesses of HSPA+, WiMAX, and LTE to create quantitative and qualitative assessments of the role each technology will play in the future. The study examines drivers for network upgrades and the technologies that will be used to improve network performance including MIMO, error correction, OFDMA, scheduling and modulation, among others. It offers detailed competitive analysis of each technology that considers technical, market and regional factors and it also delineates the deployment of these next generation technologies on a regional basis.

Shipments and revenues are provided for LTE, WiMAX and HSPA+ handset/user devices, femtocells and base stations. Subscribers and femtocell users and associated service revenues are also included for each technology as are cumulative base station deployments. WCDMA and HSDPA/HSUPA subscribers are given as are total 3.5G/4G users, devices, base stations deployments and shipments and service and equipment revenues.

Questions Addressed

  • What impact will the global recession have upon 3.5G/4G deployments?
  • Which spectrum will be used?
  • Which spectrum will become available for use?
  • Will HSPA+ delay LTE deployments?
  • Can 802.16e make a mark in the mobile space?
  • Is 802.16m too late?
  • What are the distinguishing attributes of each system?
  • What are the relative strengths/weaknesses of each platform?
  • When will 3.5G and 4G be deployed in each market?
  • What are carriers seeking from next generation deployments?
  • What will the deployment curve for 4G look like through 2020?

Quantifies Through 2015

  • Shipments and revenues for 802.16 infrastructure deployments, client devices and femtocells and 802.16 subscribers and revenues
  • Shipments and revenues for LTE infrastructure deployments, client devices and femtocells and LTE subscribers and revenues
  • Shipments and revenues for HSPA+ infrastructure deployments, client devices and femtocells and HSPA+ subscribers and revenues
  • WCDMA and HSDPA/HSUPA subscribers
  • WiMAX, HSPA+, LTE and total 3.5G/4G femtocell users and service revenues
  • WiMAX, HSPA+ and LTE base station shipments, deployments and revenues
  • 3.5G /4G infrastructure deployments, client devices and femtocells and 3.5G/4G subscribers and revenues
  • 802.16, LTE and HSPA+ subscribers by region

Table of Contents

1.0 EXECUTIVE SUMMARY

  • 1.1 A Case Decided
  • 1.2 Capacity Shortages
    • 1.2.1 4G Spectrum Allocations- Additional Bands Globally
    • 1.2.2 The LTE Spectrum Conundrum
    • 1.2.3 2G and 3G Bands
    • 1.2.4 4G Spectrum in Europe
      • 1.2.5 4G Spectrum in North America
      • 1.2.6 4G Spectrum in Japan
      • 1.2.7 4G Spectrum in South Korea
      • 1.2.8 4G Spectrum in Australia
      • 1.2.9 4G Spectrum in the Rest of the World
  • 1.3 Backhaul Remains a Bottleneck
  • 1.4 HSPA+ is Very Appealing Again
  • 1.5 Great Recession or Permanent Correction?
  • 1.6 4G Time Frame Affected
  • 1.7 WiMAX
  • 1.8 Can/Will LTE be Challenged?
  • 1.9 Executive Summary Figures
    • 1.9.1 World 3.5G and 4G Subscribers and Revenues
    • 1.9.2 World 3.5G and 4G Subscribers by Region
    • 1.9.3 World 3.5G and 4G Handset Shipments, ASPs and Revenues
    • 1.9.4 World 3.5G and 4G Femtocell Users and Service Revenues
    • 1.9.5 World 3.5G and 4G Femtocell Device Shipments and Revenues
    • 1.9.6 World 3.5G and 4G Base Station Shipments, Deployments and Revenues

2.0 EVOLVED HIGH SPEED PACKET ACCESS (HSPA+)

  • 2.1 HSPA and HSPA+ Defined
  • 2.2 Standards and Committees
  • 2.3 Status
  • 2.4 Time to Market
  • 2.5 Backers
  • 2.6 Announcements/Deployments
  • 2.7 HSPA Main Technologies (Releases 5 and 6)
    • 2.7.1 HS-SDCH (High-Speed Shared Downlink Channel)
    • 2.7.2 E-DCH (Enhanced Dedicated Channel)
    • 2.7.3 Reduced Transmission Time Interval (TTI)
    • 2.7.4 Scheduling and Link Adaptation
    • 2.7.5 Higher Order Modulation
    • 2.7.6 Hybrid ARQ and Soft Combining
  • 2.8 HSPA+ Technical Attributes (Releases 7 and 8)
    • 2.8.1 Modulation
    • 2.8.2 Air Interface
    • 2.8.3 Throughput
      • 2.8.3.1 Downlink
      • 2.8.3.2 Uplink
    • 2.8.4 Voice Capacity
    • 2.8.5 Handoffs
    • 2.8.6 Latency
    • 2.8.7 Intelligent Antenna Support
    • 2.8.8 HSPA Release 9 Improvements
  • 2.9 HSPA+ Market Factors
    • 2.9.1 Upgrade Complexity
    • 2.9.2 Existing Networks
    • 2.9.3 Backwards Compatibility
    • 2.9.4 Proven Air Interface
    • 2.9.5 HSPA+ With MIMO
    • 2.9.6 Economies of Scale
    • 2.9.7 Low Risk Option
    • 2.9.8 Recoup Investment
    • 2.9.9 Uplink Budget
    • 2.9.10 Evaluation
  • 2.10 HSPA+ Figures and Forecasts
    • 2.10.1 World WCDMA and HSDPA/HSUPA Subscribers
    • 2.10.2 World HSPA+ Subscribers and Revenues
    • 2.10.3 World HSPA+ Subscribers by Region
    • 2.10.4 World WCDMA Device Shipments
    • 2.10.5 World HSPA+ Device Shipments, Revenues and ASPs
    • 2.10.6 World HSPA+ Femtocell Subscribers, Revenues and ARPU
    • 2.10.7 World HSPA+ Femtocell Device Shipments, Revenues and ASPs
    • 2.10.5 World HSPA+ Base Station Shipments, Deployments and Revenues

3.0 WiMAX 802.16

  • 3.1 802.16 and WiMAX Background
  • 3.2 Standards and Task Groups of Note
    • 3.2.1 802.16e (802.16e-2005) - OFDMA Downlink
    • 3.2.2 802.16d (802.16-2004) - Physical Layer Options
    • 3.2.3 802.16h - Band Coexistence
    • 3.2.4 Relay Task Group (802.16j) - Mesh Networking
  • 3.3 The WiMAX Forum - Everyone has a Toe in the Water
    • 3.3.1 Members
    • 3.3.2 WiMAX Forum Role
    • 3.3.3 Certification
  • 3.4. 802.16 2004, 802.16e-2005 and WiMAX feature set
    • 3.4.1 Channel Sizes
    • 3.4.2 Frequency Allocations
    • 3.4.3 Duplexing
    • 3.4.4 Modulation
    • 3.4.5 FFT Size
    • 3.4.6 Mobile WiMAX Wave 1 and 2 Profiles, Key Attributes
  • 3.5 Technical Considerations
    • 3.5.1 Data Rates and Spectral Efficiency
    • 3.5.2 WiMAX Performance
      • 3.5.2.1 Summary of Limitations
      • 3.5.2.2 Frequency Reuse, Handoffs and Mobility
      • 3.5.2.3 Interference Management
      • 3.5.2.4 Uplink (PAPR and TDD)
      • 3.5.2.5 Is MIMO a Must?
    • 3.5.3 Intelligent Antenna use for WiMAX
      • 3.5.3.1 MIMO (Matrix A and B)
      • 3.5.3.2 AAS or Beamforming
  • 3.6 Market Considerations
    • 3.6.1 WiMAX Base Station and CPE Pricing
    • 3.6.2 Certification Expectations
    • 3.6.3 Proprietary and Competing Solutions
    • 3.6.4 Success of WiMAX in the WAN and PAN
    • 3.6.5 Is WiMAX in the Laptop the Answer?
    • 3.6.6 The Need for Dual Mode Cellular/WiMAX Devices/Chipsets
    • 3.6.7 WiMAX vs. CDMA/WCDMA
    • 3.6.8 WiMAX as a Hot Spot Solution
  • 3.7 Leading WiMAX Carriers
    • 3.7.1 Clearwire Communications
    • 3.7.2 UQ Communications
    • 3.7.3 Yota
  • 3.8 WiMAX Figures and Forecasts
    • 3.8.1 World WiMAX Fixed and Mobile Subscribers and Revenues
    • 3.8.2 World WiMAX Fixed and Mobile Subscribers by Region
    • 3.8.3 World WiMAX Phone, CPE and Modem Shipments, Revenues and ASPs
    • 3.8.4 World WiMAX Femtocell Subscribers and Service Revenues
    • 3.8.5 World WiMAX Femtocell Shipments and Revenues
    • 3.8.6 World WiMAX Base Station Shipments, Deployments and Revenues

4.0 LONG TERM EVOLUTION (LTE)

  • 4.1 Definitions: LTE and SAE
  • 4.2 Drivers: LTE and SAE
  • 4.3 LTE Design Goals
  • 4.4 LTE Enabling Technologies
  • 4.5 LTE Current Tests, Status and Time to Market
  • 4.6 LTE Backers
  • 4.7 LTE Contract, Carrier Announcements and Deployments in 2010
  • 4.8 LTE Spectrum Allocations throughout the World
  • 4.9 Technical Overview
    • 4.9.1 The LTE Air Interface
      • 4.9.1.1 Downlink
      • 4.9.1.2 Uplink; the Pros and Cons of SC-FDMA
    • 4.9.2 LTE Channel sizes
    • 4.9.3 LTE Modulation
    • 4.9.4 LTE Throughput Projected and Real World
      • 4.9.4.1 Backhaul Upgrades Needed
    • 4.9.5 MIMO, Intelligent Antenna Support
    • 4.9.6 LTE Spectrum Choice
    • 4.9.7 LTE Latency
    • 4.9.8 Duplexing
    • 4.9.9 Core Network
    • 4.9.10 Other Design Goals
    • 4.9.11 LTE Frequency Reuse
  • 4.10 LTE Advanced
  • 4.11 Femtocells
  • 4.12 LTE Market Factors
    • 4.12.1 Unproven Technology
    • 4.12.2 Timing
    • 4.12.3 Certification of User Devices
    • 4.12.4 IPR and Potential Litigation
    • 4.12.5 Competition
      • 4.12.5.1 LTE versus HSPA+
      • 4.12.5.2 LTE versus WiMAX
  • 4.13 Cost
  • 4.14 Installed Base
  • 4.15 Risk
  • 4.16 Current Macroeconomic Conditions
  • 4.17 LTE in Consumer Devices
  • 4.18 LTE Figures and Forecasts
    • 4.18.1 World LTE Subscribers and Service Revenues
    • 4.18.4 World LTE Subscribers by Region
    • 4.18.2 World LTE Device Shipments and Revenues
    • 4.18.3 World LTE Femtocell Subscribers and Revenues
    • 4.18.4 World LTE Femtocell Device Shipments, Revenues and ASP
    • 4.18.5 World LTE Base Station Shipments, Deployments and Revenues

TABLES AND FIGURES

  • Table 1-1
  • 3.5G and 4G Subscribers and Revenues
  • HSPA+, LTE and WiMAX
  • World Market 2009-2015
  • Table 1-2
  • 3.5G and 4G Subscribers by Region
  • HSPA+, LTE and WiMAX
  • World Market 2009-2015
  • Table 1-3
  • 3.5G and 4G Devices
  • HSPA +, LTE and WiMAX
  • Shipments, Revenues and Average Selling Price
  • World Market 2009-2015
  • Table 1-4
  • 3.5G and 4G Femtocell Users and Service Revenues
  • HSPA+, LTE and WiMAX
  • World Market 2009-2015
  • Table 1-5
  • 3.5G and 4G Femtocell Shipments, Revenues and Average Selling Price
  • HSPA+, LTE and WiMAX
  • World Market 2009-2015
  • Table 1-6
  • 3.5G and 4G Base Station Shipments, Deployments and Revenues
  • HSPA+, LTE and WiMAX
  • World Market 2009-2015
  • Table 2-1
  • WCDMA and HSDPA/HSUPA Subscribers
  • World Market 2009-2015
  • Table 2-2
  • HSPA+ Subscribers, Revenues and Average Revenue per User
  • World Market 2009-2015
  • Table 2-3
  • HSPA+ Subscribers
  • World by Region
  • Table 2-4
  • WCDMA Device Shipments
  • All Variations of WCDMA
  • World Market 2009-2015
  • Table 2-5
  • HSPA+ Device Shipments, Revenues and Average Selling Price
  • World Market 2009-2015
  • Table 2-6
  • HSPA+ Femtocell Users and Service Revenues
  • World Market 2009-2015
  • Table 2-7
  • HSPA+ Femtocell Shipments and Revenues
  • World Market 2009-2015
  • Table 2-8
  • HSPA+ Base Station Shipments, Deployments and Revenues
  • World Market 2009-2015
  • Table 3-1
  • WiMAX Subscribers and Revenues
  • World Market 2009-2015
  • Table 3-2
  • Mobile WiMAX
  • Subscribers World by Region
  • World Market 2009-2015
  • Table 3-3
  • WiMAX Device Shipments
  • Revenues and Average Selling Price
  • World Market 2009-2015
  • Table 3-4
  • Mobile WiMAX
  • Femtocell Users and Service Revenues
  • World Market 2009-2015
  • Table 3-5
  • Mobile WiMAX
  • Femtocell Shipments and Revenues
  • World Market 2009-2015
  • Table 3-6
  • Mobile WiMAX
  • Base Station Shipments, Deployments and Revenues
  • World Market 2009-2015
  • Table 4-1
  • LTE Subscribers, Service Revenues and Average Revenue per Unit
  • World Market 2010-2015
  • Table 4-2
  • LTE Subscribers by Region
  • World Market
  • 2010-2015
  • Table 4-3
  • LTE Device Shipments, Revenues and Average Selling Price
  • World Market 2010-2015
  • Table 4-4
  • LTE Femtocell Users and Service Revenues
  • World Market 2010-2015
  • Table 4-5
  • LTE Femtocell Shipments and Revenues
  • World Market 2010-2015
  • Table 4-6
  • LTE Base Station Shipments, Deployments and Revenues
  • World Market 2009-2015
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