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市場調查報告書

MIMO為基礎的通信系統

MIMO-based Communications Systems

出版商 Practel, Inc. 商品編碼 309681
出版日期 內容資訊 英文
商品交期: 最快1-2個工作天內
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MIMO為基礎的通信系統 MIMO-based Communications Systems
出版日期: 2014年08月04日 內容資訊: 英文
簡介

由於用戶尋求更有效率網路的需求,許多技術創新實現了。其中之一是MIMO (multiple input multiple output),最近或今後的3GPP規格,幾乎全部在使用中(利用預定)等,逐漸深深地滲透到無線系統中。還有MIMO,也可利用於有線系統。

本報告提供MIMO為基礎的各種通信系統的相關調查,各通訊規格(3GPP LTE、IEEE 802.11n、IEEE 802.11ac、ITU G.hn.)的MIMO的優點、市場特徵、相關經營者及產品等彙整。

第1章 簡介

第2章 MIMO:概念、功能、結構

  • 過程
  • 概念:無線通訊的MIMO
  • MIMO的類型
  • 摘要:MIMO的優點

第3章 LTE的發展中MIMO所扮演的角色

  • 公佈
  • LTE的時間表
  • 寬頻無線通訊的階段
  • LTE的標準化:產業的合作
  • LTE的主要特徵
  • 詳細內容
  • LTE Advanced
  • SON
  • 語音支援
  • 市場
  • LTE的優點:摘要
  • 供應商
  • LTE MIMO的特徵

第4章 802.11n的發展中MIMO所扮演的角色

  • 802.11n狀況
  • IEEE 802.11n和Wi-Fi Alliance
  • 802.11n技術的特徵
  • PHY和MAC
  • 主要標準的功能:摘要
  • 優點與用途
  • 市場
  • 產業
  • MIMO和802.11n

第5章 802.11ac的發展中MIMO所扮演的角色

  • 概要:802.11n的特徵的改善
  • 認證
  • 主要的功能:摘要
  • 主要的優點
  • 利用模式
  • 預測
  • 產業
  • 802.11ac規格的MIMO

第6章 G.hn的發展中MIMO所扮演的角色

  • HomePNA Alliance
  • ITU的配合措施
  • G.hn詳細內容
  • 接受
  • HomePNA和G.hn
  • 供應商範例
  • G.hn MIMO

第7章 總論

圖表

目錄

Brief

Users' demand for more efficient networking brought to life many technological innovations. One of them is MIMO (multiple input multiple output), which became very popular in wireless systems - almost all recent and future 3GPP standards use (or will be using) variations of such a technique. MIMO also can be used in wireline systems.

This report is based on the Practel's analysis of MIMO-based communications systems, their technologies and markets specifics. Particular, the following industry standards that utilize MIMO have been considered:

  • 3GPP LTE
  • IEEE 802.11n
  • IEEE 802.11ac
  • ITU G.hn.

The goal of this report was to characterize MIMO advantages and specifics for each standard. It also addresses market characteristics of discussed technologies. Report concentrates on corresponding industries players and their products.

MIMO characteristics, structures and types are also addressed and compared.

The report is written for a wide audience of managers and technical staff that involved in the design and implementation of advanced communications systems.

Methodology

Considerable research was performed using the Internet. Information from various Web sites was studied and analyzed; evaluation of publicly available marketing and technical publications was also conducted. Telephone conversations and interviews were held with industry analysts, technical experts and executives. In addition to these interviews and primary research, secondary sources were used to develop a more complete mosaic of the market landscape, including industry and trade publications, conferences and seminars.

The overriding objective throughout the work has been to provide valid and relevant information. This has led to a continual review and update of the information content.

Target Audience

The report was developed for service providers, vendors, network operators and managers, Enterprise IT staff, investors and end users seeking to gain a deeper understanding of MIMO- based networking.

The end users can gain thorough understanding of product's market and capabilities as well as the economics of using these technologies products to improve cost efficiency.

For equipment vendors, this report provides information on competition.

Table of Contents

1.0 Introduction

  • 1.1 General
  • 1.2 Goal
  • 1.3 Structure
  • 1.4 Research Methodology
  • 1.5 Target Audience

2.0 MIMO - Concept, Functions and Structures

  • 2.1 History
  • 2.2 Concept: MIMO in Wireless Communications
  • 2.3 Types of MIMO
  • 2.4 Summary - MIMO Benefits

3.0 MIMO Role in LTE Development

  • 3.1 Releases
  • 3.2 LTE Timetable
  • 3.3 Broadband Wireless Communications-Phases
  • 3.4 LTE Standardization-Industry Collaboration
    • 3.4.1 Industry Initiative
    • 3.4.2 Intellectual Property
  • 3.5 Key Features of LTE
  • 3.6 Details
    • 3.6.1 Evolved UMTS Radio Access Network (EUTRAN)
    • 3.6.2 UE Categories
    • 3.6.3. Evolved Packet Core (EPC)
  • 3.7 LTE Advanced
  • 3.8 SON
  • 3.9 Voice Support
    • 3.9.1 VoLTE
  • 3.10 Market
    • 3.10.1 Drivers
    • 3.10.2 Demand: Wireless Broadband
    • 3.10.3 LTE Market Projections
  • 3.11 Summary of LTE Benefits
  • 3.12 Vendors
    • 4M Wireless (acquired by u-blox in 2012)
    • Agilent
    • Altair Semiconductor
    • Alcatel-Lucent
    • Altera
    • Aricent
    • AceAxis
    • Cisco
    • CommAgility
    • Ericsson
    • Fujitsu
    • Infineon
    • Huawei
    • Lime Microsystems
    • mimoON
    • Motorola Solutions
    • Nokia Siemens Networks
    • NXP
    • picoChip (acquired by Mindspeed in 2012)
    • Qualcomm
    • Samsung
    • Sequans
    • Signalion
    • TI
    • ZTE
  • 3.13 Specifics LTE MIMO
    • 3.13.1 Techniques
    • 3.13.2 Modes
    • 3.13.3 MIMO: LTE Release 8
    • 3.13.4 MIMO: LTE Release 9
    • 3.13.5 MIMO: LTE Advanced
    • 3.13.6 LTE/LTE-A - MIMO Benefits
    • 3.13.7 Projections

4.0 MIMO Role in 802.11n Development

  • 4.1 802.11n Status
    • 4.1.1 Environment
    • 4.1.2 Draft v. 1.0
    • 4.1.3 Draft v. 2.0
    • 4.1.4 Further Developments and IEEE Approval
  • 4.2 IEEE 802.11n and Wi-Fi Alliance
  • 4.3 802.11n Technology Specifics
    • 4.3.1 Major Advances
  • 4.4 PHY and MAC
  • 4.5 Major Standard Features: Summary
    • 4.5.1 Specifics
    • 4.5.2 Channel Bandwidth
    • 4.5.3 Backward Compatibility
    • 4.5.4 Adaptation
    • 4.5.5 Security
    • 4.5.6 Enhancements
  • 4.6 Benefits and Applications
    • 4.6.1 Benefits
    • 4.6.2 Applications
  • 4.7 Market
    • 4.7.1 Drivers
    • 4.7.2 Market Forecast
  • 4.8 Industry
    • Aerohive (APs)
    • Aruba (APs)
    • Atheros-Qualcomm (Chipsets, WUSB)
    • Buffalo (Router, AP)
    • Belkin (Routers, Adaptors, WUBS)
    • Broadcom (Chipsets, WUSB)
    • Cisco (AP)
    • Celeno (HDVD)
    • D-Link (Routers, WUSB)
    • Extreme (AP)
    • Marvell (Chipsets)
    • Meru (Family of Products)
    • Motorola Solution (Tools, AP)
    • Netgear (Router, AP)
    • OvisLink (Router, WUBS)
    • Redpine Signals (Chipsets)
    • Ruckus (AP, Multimedia)
    • Quantenna (chipsets)
    • TP-Link
    • TrendNet (Routers, AP, WUSB)
    • Xirrus
    • ZyXel (AP, Router, WUSB)
  • 4.9 MIMO and 802.11n
    • 4.9.1 MIMO Specifics: 802.11n
    • 4.9.2 High Throughput (HT) Station (STA)
    • 4.9.3 Basic Concept
    • 4.9.4 MIMO Contributions

5.0 MIMO Role in 802.11ac Development

  • 5.1 General - Improving 802.11n Characteristics
  • 5.2 Approval
  • 5.3 Major Features: Summary
  • 5.4 Major Benefits
  • 5.5 Usage Models
    • 5.5.1 Phases
  • 5.6 Projections
  • 5.7 Industry
    • Aruba
    • Broadcom
    • Buffalo
    • Cisco
    • D-Link
    • Linksys
    • Marvell
    • Meru
    • MicroChip
    • Netgear
    • Qualcomm
    • Quantenna
    • Redpine Signals
  • 5.8 MIMO in 802.11ac Standard
    • 5.8.1 Comparison
    • 5.8.2 Projections

6.0 MIMO Role in G.hn Development

  • 6.1 HomePNA Alliance
    • 6.1.1 General
    • 6.1.2 HomePNA Specification 3.1: Major Features
    • 6.1.3 Fast EoC HomePNA
    • 6.1.4 Major Benefits
  • 6.2 ITU Efforts
    • 6.2.1 General
  • 6.3 G.hn Details
  • 6.4 Acceptance
  • 6.4.1 IEEE1905.1
  • 6.5 HomePNA and G.hn
  • 6.6 Samples of Vendors
    • Arris
    • Comtrend
    • Marvell
    • Metanoia
    • Sigma Designs
    • TangoTec
    • ZyXel
  • 6.7 G.hn MIMO
    • 6.7.1 Project
    • 6.7.2 Goal
    • 6.7.3 G.hn MIMO Benefits
    • 6.7.4 Specifics
    • 6.7.5 First Certification

7.0 Conclusions

  • Figure 1: 2x2 MIMO
  • Figure 2: Major Antenna Configurations
  • Figure 3: MIMO Concept (2x2)
  • Figure 4: Illustration - Beamforming
  • Figure 5: MU-MIMO - Downlink
  • Figure 6: SU-MIMO and MU-MIMO
  • Figure 7: Evolution Path
  • Figure 8: Towards Wireless Mobile Broadband
  • Figure 9: LTE - IP
  • Figure 10: LTE - Reference Architecture
  • Figure 11: Projection: Global Broadband Mobile Subscribers Base (Bil.)
  • Figure 12: LTE Market-Subscribers' Base (Bil)
  • Figure 13: TAM: LTE Global Equipment Sale ($B)
  • Figure 14: Spectrum Efficiency
  • Figure 15: TAM: LTE MIMO Sales ($B)
  • Figure 16: 802.11n MAC
  • Figure 17: 802.11 Protocol Family MAC Frame Structure
  • Figure 18: TAM: Global Sales - Wi-Fi Chipsets ($B)
  • Figure 19: TAM: Global Sales - Wi-Fi Chipsets (Bill. Units)
  • Figure 20: TAM: Global Sales - 802.11n Chipsets ($B)
  • Figure 21: TAM: Global Sales - 802.11n Chipsets (Bil. Units)
  • Figure 22: 802.11n Market Geography
  • Figure 23: Channel Assignment
  • Figure 24: 802.11ac Consumers AP Shipping-Global (Mil. Units)
  • Figure 25: 802.11ac Consumers AP Shipping-Global ($B)
  • Figure 26: Projections: Global 802.11ac Consumers AP MIMO Sales ($B)
  • Figure 27: Rate
  • Table 1: MIMO Variations
  • Table 2: MIMO Benefits
  • Table 3: 3GPP Releases
  • Table 4: Initial LTE Characteristics: Illustration
  • Table 5: LTE Frequency Bands
  • Table 6: Users Equipment Categories (Rel. 8)
  • Table 7: UE Categories (Rel. 10)
  • Table 8: LTE Transmission Modes - MIMO
  • Table 9: Additional Details
  • Table 10: 802.11 Standard Characteristics - Draft 1.0
  • Table 11: 802.11n PHY
  • Table 12: Comparison: 802.11 Family Members Transfer Rates
  • Table 13: 802.11n Enhancements
  • Table 14: 802.11n Advantages
  • Table 15: MIMO PHY Characteristics
  • Table 16: Functionalities
  • Table 17: Specifics
  • Table 18: Rates
  • Table 19: Usage Models
  • Table 20: Phases
  • Table 21: 802.11n vs. 802.11ac
  • Table 22: ITU and HomePNA Standards
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