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市場調查報告書

LTE回程傳輸的頻帶選擇

Spectrum Options for LTE Backhaul

出版商 ABI Research 商品編碼 331997
出版日期 內容資訊 英文 22 Pages, 6 Tables, 4 Charts
商品交期: 最快1-2個工作天內
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LTE回程傳輸的頻帶選擇 Spectrum Options for LTE Backhaul
出版日期: 2015年06月05日 內容資訊: 英文 22 Pages, 6 Tables, 4 Charts
簡介

由於LTE用戶群的擴大及LTE-Advanced網路引進的擴大、智慧型手機以及平板的普及等要素,相信今後高容量資料的應用也將持續擴大。業者為了配合加速的行動數據流量,正在評估引進回程傳輸網路的有效解決方案。

本報告提供LTE網路的回程傳輸可利用頻帶的相關調查,提供您行動網路的資料流量變化與預測,行動回程網路技術的選項,頻帶的可用性和生產能力,彙整LTE回程解決方案比較,各地區的法律規章上的考察等相關資訊。

第1章 由於行動數據流量擴大推動了回程傳輸的升級

  • 4G用戶群行動數據流量的促進成長

第2章 行動回程網路選擇

  • 光纖
  • xDSL
  • FTTx
  • HFC / DOCSIS
  • 衛星回程傳輸
  • TV閒置頻段
  • 無線回程傳輸
  • 摘要·總論

第3章 回程傳輸的頻帶執照:可用性和生產能力

  • 回程傳輸的頻帶執照:取得手法
  • 回程傳輸的頻帶:可用性和生產能力
    • 6GHz以下的頻帶
    • 4-9GHz回程傳輸鏈接
    • 微波 (10-42GHz)
    • 10-18GHz回程傳輸鏈接
    • 20-42GHz回程傳輸鏈接
    • 毫米波V帶 (60GHz)·E波段 (70/80GHz)
    • 60-100GHz回程傳輸鏈接
  • 摘要·總論

第4章 LTE回程解決方案比較

  • 有線·無線LTE回程傳輸技術
  • 微型蜂巢式基地台的LTE回程傳輸
  • 小型基地台的回程傳輸
  • 回程傳輸的頻帶法律規章上的考察
    • 10GHz以下
    • 10-42GHz
    • 60 GHz V帶
    • 70/80 GHz E波段
  • 摘要·總論

第5章 用語

圖表

目錄
Product Code: AN-1996

The rising LTE subscriber base, expending deployment of LTE advanced networks, and the growing adoption of smartphone and tablets will continue to drive the use of data heavy applications. It is driving operators to apply efficient solutions for backhaul networks to handle accelerating mobile data traffic. Regulators and operators are considering efficient solutions for allocation and utilization of spectrum bands for mobile backhaul networks in order to meet the bandwidth requirement of advanced mobile networks. This report presents available backhaul spectrum bands for LTE networks and regulatory considerations in different markets based on ABI Research's mobile backhaul market data as well as surveys accessed to the regulators and mobile backhaul equipment vendors.

Table of Contents

1. GROWING MOBILE DATA TRAFFIC DRIVES BACKHAUL UPGRADES

  • 1.1. 4G Subscriber Base Drives Mobile Data Traffic Growth

2. MOBILE BACKHAUL OPTIONS

  • 2.1. Fiber Optic
  • 2.2. xDSL
  • 2.3. FTTx
  • 2.4. HFC / DOCSIS
  • 2.5. Satellite Backhaul
  • 2.6. TV White Space
  • 2.7. Wireless Backhaul
  • 2.8. Summary and Conclusions

3. BACKHAUL SPECTRUM LICENSING: AVAILABILTY AND CAPACITY

  • 3.1. Backhaul Spectrum Licensing Methods
  • 3.2. Backhaul Spectrum Availability and Capacity
    • 3.2.1. Sub-6 GHz Band
    • 3.2.2. 4 GHz to 9 GHz Backhaul Links
    • 3.2.3. Microwave Spectrums (10 GHz to 42 GHz)
    • 3.2.4. 10 GHz to 18 GHz Backhaul Links
    • 3.2.5. 20 GHz to 42 GHz Backhaul Links
    • 3.2.6. Millimeter Wave V-band (60 GHz) and E-band (70 / 80 GHz) Bands
    • 3.2.7. 60 GHz to 100 GHz Backhaul Links
  • 3.3. Summary and Conclusions

4. COMPARISON OF LTE BACKHAUL SOLUTIONS

  • 4.1. Wired and Wireless LTE Backhaul Technologies
  • 4.2. LTE Backhaul in Macrocells
  • 4.3. Backhaul in Small Cells
  • 4.4. Regulatory Considerations of Backhaul Spectrum
    • 4.4.1. Low-range Spectrum Bands below 10 GHz
    • 4.4.2. 10 GHz to 42 GHz
    • 4.4.3. 60 GHz, V-Bands
    • 4.4.4. 70 / 80 GHz E-bands
  • 4.5. Summary and Conclusions

5. ACRONYMS

Tables

  • 1. Wireless Backhaul Technologies, Comparison
  • 2. Backhaul Spectrum Summary, 3 GHz to 9 GHz, Countries Surveyed, by Region
  • 3. Backhaul Spectrum Summary, 10 GHz to 18 GHz, Countries Surveyed, by Region
  • 4. Backhaul Spectrum Summary, 20 GHz to 42 GHz, Countries Surveyed, by Region
  • 5. Backhaul Spectrum Summary, >50 GHz, Countries Surveyed, by Region
  • 6. LTE Mobile Backhaul Technology Trade-offs, Wireless versus Fixed versus Satellite

Charts

  • 1. Mobile Network Data Traffic by Wireless Protocol, World Market, Forecast: 2011 to 2019
  • 2. Mobile Network Data Traffic by Traffic Type, World Market, Forecast: 2011 to 2019
  • 3. LTE Macro Backhaul Usage, World Market, Forecast: 2013 and 2019
  • 4. Small-cell Backhaul Usage, World Market, Forecast: 2014 to 2020
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