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市場調查報告書

Massive MIMO的崛起

The Rise of Massive MIMO

出版商 ABI Research 商品編碼 603634
出版日期 內容資訊 英文 35 Pages, 1 Table, 2 Charts, 5 Figures
商品交期: 最快1-2個工作天內
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Massive MIMO的崛起 The Rise of Massive MIMO
出版日期: 2018年02月09日 內容資訊: 英文 35 Pages, 1 Table, 2 Charts, 5 Figures
簡介

本報告提供Massive MIMO技術趨勢調查,技術定義和概要,架構,天線的演進趨勢,優點與課題,實驗、試用、引進的預測,未來展望和策略性建議,供應商的生態系統等彙整資料。

第1章 概要

第2章 簡介

第3章 MASSIVE MIMO:定義

  • 空間的多樣性
  • 空間的多重化
  • 光束成形
  • CoMP (Coordinated Multi-Point)
  • 運算傳播流通管道資訊 (CSI:Channel State Information)
  • 5G的Massive MIMO

第4章 天線的演進

第5章 MASSIVE MIMO:架構

  • 類比
  • 數位
  • 混合

第6章 MASSIVE MIMO:優點

第7章 MASSIVE MIMO:課題

第8章 未來展望

第9章 市場預測

  • 實驗、試用、引進

第10章 策略性建議

第11章 總論

第12章 供應商生態系統

  • Amphenol Antenna Solutions
  • Anokiwave
  • Comba Telecom
  • Blue Danube Systems
  • CommScope
  • Ericsson
  • Huawei
  • Kathrein
  • Nokia
  • Pivotal Commware
  • Radio Frequency Systems
  • Samsung
  • ZTE
目錄
Product Code: AN-2758

As mobile networks migrate to 5G, massive MIMO will be a fundamental underlying technology helping to realize the predicted 100X capacity when compared to today's LTE-A and LTE-A Pro technologies. Massive MIMO will be required in the low-, mid-, and high-band spectrum. In the high band, or millimeter wave (mmWave) spectrum massive MIMO will be used in beamforming mode to overcome the non-line-of-sight (NLOS) limitations at these frequencies.

Massive MIMO deploys large numbers of antennas in the base station - more than there are UEs in the sector. These “excess” antennas permit the RAN to narrowly focus radiated energy only towards those UEs which require it. The effect of this is to dramatically increase the spectral efficiency allowing the sector throughput to increase and the MNO to maximize the use of network resources in the RAN

In addition to the spectral efficiency gain from massive MIMO other benefits include the ability to use inexpensive low-power components since the total radiated power in the sector is now shared among many antennas. Massive MIMO also enables a reduction in the total RF power of the sector leading to TCO savings for the MNO and potentially raising the prospect of solar or wind powered base stations. Massive MIMO also enables a large reduction in the latency of the air interface since the radiated energy is not subject to fading dips in the signal strength due to channel hardening.

Table of Contents

1. EXECUTIVE OVERVIEW

2. INTRODUCTION

3. DEFINING MASSIVE MIMO

  • 3.1. Spatial Diversity
  • 3.2. Spatial Multiplexing
  • 3.3. Beamforming
  • 3.4. Coordinated Multipoint
  • 3.5. Computing Channel State Information
  • 3.6. Massive MIMO in 5G

4. ANTENNA EVOLUTION

5. MASSIVE MIMO ARCHITECTURES

  • 5.1. Analog
  • 5.2. Digital
  • 5.3. Hybrid

6. MASSIVE MIMO ADVANTAGES

7. MASSIVE MIMO CHALLENGES

8. FUTURE EVOLUTION

9. MARKET FORECASTS

  • 9.1. Tests, Trials, and Deployments

10. STRATEGIC RECOMMENDATIONS

11. CONCLUSIONS

12. VENDOR ECOSYSTEM

  • 12.1. Amphenol Antenna Solutions
  • 12.2. Anokiwave
  • 12.3. Comba Telecom
  • 12.4. Blue Danube Systems
  • 12.5. CommScope
  • 12.6. Ericsson
  • 12.7. Huawei
  • 12.8. Kathrein
  • 12.9. Nokia
  • 12.10. Pivotal Commware
  • 12.11. Radio Frequency Systems
  • 12.12. Samsung
  • 12.13. ZTE

Companies Mentioned:

  • RF Technologies
  • ZTE Corporation
  • Nokia
  • Ericsson
  • Sprint Corporation
  • Vodafone Group
  • China Unicom Ltd.
  • Samsung
  • Verizon
  • CommScope Inc
  • Amphenol Corporation
  • SBS
  • United Technologies Corporation
  • China Telecom Corp Ltd
  • China Mobile
  • Deutsche Telekom
  • SK Telecom
  • SK corp
  • Comba Telecom
  • Telstra Corp Ltd
  • Qualcomm Inc
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