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市場調查報告書

小型基地台網路、行動回程網路市場,技術及應用

Small Cells Networking and Mobile Backhaul-Markets, Technologies and Applications

出版商 Practel, Inc. 商品編碼 360446
出版日期 內容資訊 英文 162 Pages
商品交期: 最快1-2個工作天內
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小型基地台網路、行動回程網路市場,技術及應用 Small Cells Networking and Mobile Backhaul-Markets, Technologies and Applications
出版日期: 2016年06月16日 內容資訊: 英文 162 Pages
簡介

本報告提供小型基地台技術選擇,其優點,各種種類及規格為中心的分析,主要應用程式分析與標準化的發展,及主要供應商的簡介等。

第1章 簡介

第2章 4G時代

  • 通訊量
  • 轉移
  • 典型的功能

第3章 5G時代

  • 5G時間表 (3GPP-ITU)
  • 未來的調查
  • 4G-5G小型基地台

第4章 小型基地台規格

  • SC的開發
  • 術後體系
  • 背景
  • 應用
  • 優點、課題
  • 小型基地台市場
  • 標準化
  • 小型基地台產業

第5章 小型基地台回程傳輸

  • 概要
  • 規格
  • 參數
  • 標準的必要性
  • 市場特徵
  • 小型基地台回程傳輸產業
  • 摘要

第6章 結論

附錄A:60GHz無線 - SC回程傳輸

  • 概要
  • 60GHz無線 - 點對點
  • 60GHz WiFi - 802.11ad

附錄B:802.11ac

  • 認證
  • 概要 - 802.11ac的特性的改善
  • 主要的特徵
  • 主要的優點
  • 利用模式
  • 預測
  • 產業

附錄C:E-頻帶無線 - SC回程解決方案

  • 優點
  • 市場
  • 供應商
目錄

Practel is following the small cell development from the beginning of their commercialization and contributed several reports on this subject.

This particular report updates previous studies and adds the new information. The report presents in detail and in easily understandable terms independent, unbiased analysis, which reflects progress in small cells and their backhauls solutions developments. Through vendors' interviews and the analysis of other multiple data sources, the report provides latest, accurate marketing and technological information.

In particular, the report provides the analysis of small cells technologies, concentrating on their advantages, varieties and specifics. Major applications are analyzed and the standardizations developments are emphasized. Based on the in-depth industry analysis, which included the analysis of multiple studies and interviews with vendors, market prognoses (2016-2020) are presented. The survey of more than thirty vendors and their portfolios are also provided. It is shown that the 4G era (and later the 5G era) will concentrates on building HetNets in which small cells play an important role.

The report stresses that the small cells backhaul solution may prove or brake the small cell business case. Specifics of small cells backhauls, their varieties and differences from macro cells backhauls are analyzed in details. The need for standardization is emphasized. The study of industry trends, interviews with vendors and the analysis of publically available statistical data helped to perform the marketing analysis. The survey of vendors (about 30 manufacturers of small cells backhaul equipment) reflects this industry specifics. There is a range of use cases for open access small cells, from targeted demand hotspots in city centers, through generalized capacity uplift, to serving not-spots in remote rural areas. In each case the emphasis on backhaul requirements shifts, and aspects that are critical to one type of deployment can be relaxed in others. Solutions with different characteristics will address the needs of different types of small cells backhaul in different areas.

Microwave backhauls for SCs are prevailing now and it is expected that they will keep this leadership position in future.

Attachments contain the in-depth analysis of promising small cell backhaul solutions:

  • 1. 60 GHz technologies (V-band). Both Ethernet radio and 802.11ad solutions are addressed. Marketing and technical specifics are described in details. The survey of vendors is also provided.
  • 2. 802.11ac. The technology allows gigabits throughput, range and other characteristics that satisfy small cell backhaul requirements. Authors analyzed specifics of 802.11ac as they relate to the small cell backhaul application; they also analyzed the market and vendors' portfolios.
  • 3. E-band radio. Popularity of this radio for discussed applications is growing; and this trend will be even more pronounced when we are approaching the 5G era.

The report is written for a wide audience of telecommunications specialists that deal with complicated choices in mobile networking to support business cases.

Table of Contents

1.0 Introduction

  • 1.1 General
  • 1.2 Progress
  • 1.3 SC Backhaul
  • 1.4 Scope
  • 1.5 Report Structure
  • 1.6 Research Methodology
  • 1.7 Target Audience

2.0 4G Era

  • 2.1 Traffic Volumes - SCs Help
  • 2.2 Transition
  • 2.3 Typical Features
    • 2.3.1 HetNet

3.0 5G Era

  • 3.1 5G Timetable (3GPP-ITU)
  • 3.2 Look into Tomorrow
  • 3.3 4G-5G Small Cells

4.0 Small Cells Specifics

  • 4.1 SC Developments
  • 4.2 Nomenclature
    • 4.2.1 Group
  • 4.3 Background
  • 4.4 Applications
    • 4.4.1 Indoor Use Cases
    • 4.4.2 Outdoor Use Cases
    • 4.4.3 Public Safety Communications
    • 4.4.4 Summary
  • 4.5 Benefits and Issues
  • 4.6 Small Cell Market
    • 4.6.1 Market Geography
    • 4.6.2 Estimate
  • 4.7 Standardization
    • 4.7.1 Organizations
    • 4.7.1.1 Beginning
    • 4.7.1.2 3GPP Rel.12 and SCs
  • 4.8 Small Cell Industry
    • Alcatel-Lucent (Nokia)
    • AirHop Communications
    • Airvana (CommScope)
    • Athena (acquired by Google in 2015)
    • Baicells
    • Broadcom
    • BTI Wireless
    • Cavium
    • Cisco
    • Contela
    • Ericsson
    • Fujitsu
    • Huawei
    • ip.access
    • Intel
    • Gilat
    • Juni
    • Maxim
    • NEC
    • Nokia Siemens Networks
    • Qualcomm
    • Quortus
    • Radisys
    • Ruckus Wireless (Brocade)
    • Samsung
    • Spider Cloud
    • Tektelic
    • TI
    • Xilinx

5.0 Small Cell Backhaul

  • 5.1 General
    • 5.1.1 Major Classifications
  • 5.2 Specifics
    • 5.2.1 Change
    • 5.2.2 Differences
  • 5.3 Parameters
    • 5.3.1 Factors
    • 5.3.2 Planning
  • 5.4 Need for Standardization
  • 5.5 Market Characteristics
    • 5.5.1 Components
    • 5.5.2 TCO Factor
  • 5.6 Small Cell Backhaul Industry
    • Actelis (wireline)
    • Airspan (integrated wireless backhaul - 802.11ac - NLOS)
    • Alcatel-Lucent (60 GHz and other)
    • Bluwan (42 GHz)
    • BLiNQ (sub - 6 GHz)
    • Cambium
    • Cambridge Broadband (Microwave Backhaul)
    • CCS (28 GHz and up)
    • Ceragon (sub-6 GHz and other)
    • DragonWave (microwave)
    • Exalt (Microwave)
    • Intracom (Microwave)
    • Genesis (wireline)
    • MAX4G (Microwave)
    • Polewall (FSO)
    • Peraso (802.11ad; 60 GHz radio)
    • Radwin (sub-6 GHz)
    • Ruckus (802.11n) - Brocade
    • Tarana (LoS, NLoS 3 GHz)
    • Taqua (Microwave NLOS)
    • TI (NLoS)
  • 5.7 Summary

6.0 Conclusions

Attachment A: 60 GHz Radio - SC Backhaul

A.1 General

A.2 60 GHz Radio - Point-to-Point

  • A.2.1 Spectrum Specifics
  • A.2.2 Oxygen Absorption
  • A.2.3 Antenna Focus
  • A.2.4 Combined Effects
  • A.2.5 Availability
  • A.2.6 Progress in Chip Technology for mmWave
    • A.2.6.1 Modulation and Duplexing
    • A.2.6.2 Antenna
      • A.2.6.2.1 Indoor Behavior
      • A.2.6.2.2 Outdoor Behavior - FCC Modifications
  • A.2.7 Summary
  • A.2.8 60 GHz Radio Developments and Market
    • A.2.8.1 Synopsis
    • A.2.8.2 Market Estimate
      • A.2.8.2.1 General
      • A.2.8.2.2 Drivers
      • A.2.8.2.3 Forecast
  • A.2.9 60 GHz Radio - SC Backhaul Choice
  • A.2.10 Industry
    • Athena (acquired by Google in 2015)
    • BridgeWave
    • SIAE MICROELETTRONICA
    • Ceragon
    • DragonWave
    • Infineon
    • Lightpointe
    • NEC
    • Plasma Antennas
    • Siklu
    • Solectek
    • Sub10 Systems (now Fastback)

A.2 60 GHz Wi-Fi - 802.11ad

  • A.2.1 Advanced Wi-Fi: Benefits and Issues
  • A.2.2 WiGig Alliance
    • A.2.2.1 Union
  • A.2.3 IEEE 802.11ad - 60 GHz Wi-Fi
    • A.2.3.1 Status
    • A.2.3.2 Coexistence
    • A.2.3.3 Scope
      • A.2.3.3.1 Channelization
      • A.2.3.3.2 PHY
      • A.2.3.3.3 MAC
      • A.2.3.3.4 Specifics
      • A.2.3.3.5 Summary
      • A.2.3.3.6 802.11ad and SC Backhaul
    • A.2.3.4 Industry
      • InterDigital-BlueWireless
      • Nitero
      • Peraso
      • Tensorcom
      • Wilocity (acquired by Qualcomm in 2014)
    • A.2.3.5 Potential Market
      • A.2.3.5.1 Market Drivers
      • A.2.3.5.2 Usage Models
      • A.2.3.5.3 Estimate

Attachment B: 802.11ac

  • B.1 Approval
  • B.2 General - Improving 802.11n Characteristics
  • B.3 Major Features
  • B.4 Major Benefits
  • B.5 Usage Models
  • B.6 Projections
  • B.7 Industry
    • Ackrion
    • Airspan Networks
    • Mimosa
    • Ruckus (Brocade)
    • Attachment C: E-band Radio - SC Backhaul Solution
  • C.1 Benefits
  • C.2 Market
  • C.3 Vendors
    • Aviat
    • DragonWave
    • E-band Communications
    • Fujitsu
    • Infineon
    • NEC
    • Siklu
  • Figure 1: Mobile Data Traffic Growth - Global (Petabytes/Month)
  • Figure 2: ITU-R Schedule for IMT-2020 Development
  • Figure 3: 3GPP - Tentative Timeline - 5G Standardization
  • Figure 4: Major Characteristics - 5G
  • Figure 5: mmWave Advantages
  • Figure 6: Macro vs Small BS - Shipped (Ratio)
  • Figure 7: BS Classification
  • Figure 8: Base Stations Characteristics
  • Figure 9: Use Cases
  • Figure 10: Estimate: SC Global Shipments (Mil. Units)
  • Figure 11: Estimate: Global SC Shipments ($B)
  • Figure 12: Rel. 12 Enhancements
  • Figure 13: Scenario 1
  • Figure 14: Scenario 2
  • Figure 15: SC Backhaul Illustration
  • Figure 16: SC Backhaul Types
  • Figure 17: (a) Non-ideal; and (b) Ideal SC Backhaul Characteristics
  • Figure 18: Technological Changes
  • Figure 19: Summary: Specifics of SC Backhauls
  • Figure 20: Estimate: SC Backhaul - Global Market ($B)
  • Figure 21: Estimate: Global Market - SC Microwave Backhaul ($B)
  • Figure 22: PMP (a) and PTP (b) Architectures
  • Figure 23: 60 GHz Radio Use Cases
  • Figure 24: Attenuation in 60 GHz Band
  • Figure 25: Absorption Details
  • Figure 26: Directivity
  • Figure 27: Bands Features Comparison - Illustration
  • Figure 28: 60 GHz Links Characteristics
  • Figure 29: 60 GHz Link Characteristics
  • Figure 30: Global Market - SC Backhaul - 60 GHz Radio ($B)
  • Figure 31: 60 GHz SC Backhaul Characteristics
  • Figure 32: 802.11ad Major Features
  • Figure 33: 802.11ad PHY - Modulation
  • Figure 34: 802.11ad MAC
  • Figure 35: Summary
  • Figure 36: 60 GHz Wi-Fi Usage Models
  • Figure 37: PM: Tri-band Wi-Fi Chipsets Sales - Global (Bil. Units)
  • Figure 38: PM: Global Sales Tri-band Wi-Fi Chipsets ($B)
  • Figure 39: Functionalities
  • Figure 40: Channel Assignment: 802.11ac
  • Figure 41: Rates: 802.11ac
  • Figure 42: Channel Size/Rate
  • Figure 43: Usage Models
  • Figure 44: 802.11ac Consumers AP Shipping (Mil. Units)
  • Figure 45: Illustration - E-band Radio - Backhauling Mobile Network
  • Figure 46: Regulations
  • Figure 47: Estimate: Global Market-SC Backhaul-E-band Radio ($B)
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