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市场调查报告书

家庭网路:应用、技术、市场

Connected Home - Technologies, Markets, Applications

出版商 PracTel, Inc. 商品编码 308343
出版日期 内容资讯 英文 163 Pages; 53 Figures
商品交期: 最快1-2个工作天内
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家庭网路:应用、技术、市场 Connected Home - Technologies, Markets, Applications
出版日期: 2019年02月10日内容资讯: 英文 163 Pages; 53 Figures
简介

消费者与产业都对家庭网路的开发相当关心。

本报告针对家庭网路技术提供家庭网路有线、无线复数种类相关讨论与行销特征相关分析、产业分析、供应商调查详细资讯。

第1章 介绍

第2章 60GHz无线高速家庭网路

  • 60GHz无线技术规格
  • 标准化
  • 无线HD
  • IEEE 802.15.3c
  • 60 GHz WLAN
  • ECMA
  • ETSI
  • ITU-R
  • 市场
  • 产业、计画
  • 比较
  • 60 GHz WLAN:实例
  • 优点、课题:摘要

第4章 Amimon Technology

  • 企业
  • 技术
  • 产业

第5章 UWB-Sigma Designs

  • Sigma Designs

第6章 IEEE 802.11n

  • 802.11n状况
  • Wi-Fi联盟
  • 802.11n技术
  • 主要机能
  • 优点、应用
  • 市场
  • 产业
  • WiDi

第7章 IEEE 802.11ac

  • 概要
  • 详细

第8章 HomePlug

  • PLC(电源线通讯)
  • 概要
  • HomePlug Alliance
  • 优点
  • 详细
  • HomePlug 1.0
  • HomePlug GP
  • HomePlug AV
  • HomePlug AV2
  • 标准化组织
  • HomePlug AV2 市场区分
  • 供应商

第9章  ITU G.hn - HomePNA

  • HomePNA Alliance
  • ITU
  • 各种反应
  • G.hn 详细
  • 可容性
  • HomePNA与G.hn
  • 供应商例子
  • 方向性

第10章 MOCA

  • 概要
  • 合作
  • 详细(MOCA 1.0)
  • 供应商例子

第11章 DiiVA

  • 概要
  • 技术概要

第12章 DisplayPort

  • 概要
  • 前身
  • 角色
  • 市场预测

第13章 结论

  • 附录:WiHD规格

图表列表

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目录

This report is based on the authors' experience working in the industry that supports high-speed communications developments for indoor connectivity; as well as their R&D in related areas.

The analysis of several advanced indoor communications technologies and related markets, applications and survey of the industries are presented. Particular, this report concentrates on:

Wireline indoor communications, including:

  • HomePlug AV2 (MIMO)
  • MoCA (2 and 2.5)
  • HomePNA 3.1 - ITU G.hn-MIMO.

Wireless indoor communications, including:

  • IEEE802.11ac
  • IEEE802.11ax
  • IEEE802.11ad
  • IEEE802.11ay
  • Visible Light Communications (VLC).

Such a selection was based on the intention to analyze the most advanced techniques that support multi-Gb/s speeds of transmission combined with other latest achievements in indoor wireline/wireless communications. Besides, these techniques are applicable for supporting a wide spectrum of indoor services - from entertainment to Home Area Networks to the broadband Internet.

  • The report shows that wireline indoor communications are evolving towards ITU G.hn-MIMO as a technology that can use all three existing indoor wirings - electrical, phone and coax to achieve the speed of transmission more than 1 Gb/s. This standard developers believe that it can become the universal standard for home/small office networking; though shipments PLC and MoCA equipment expect to be ahead at least till 2020-2021. Altogether, wireline technologies experience severe competition from rapidly developing wireless advanced indoor communications.
  • 802.11ac and 802.11ad are two advanced WLAN technologies. They are demonstrating the direction of WLANs development towards multi-Gb/s rates and efficient coverage. The major trend in WLAN silicon is towards using tri-band chips - 2.4 GHz, 5 GHz and 60 GHz bands - all implemented in a single device. Such a trend together with the falling electronics prices and convenience of wireless (vs. wireline) connectivity make 802.11xx a winning technology.

Report also addresses next generation WICT - IEEE802.11ax (5 GHz band) and IEEE802.11ay (mmWave band). Their wide commercialization is expected in 1-2 years.

Visible Light Communications (VLC), which is defined by the ITU as the 5G technology opens additional opportunities for indoor communications. Dual-purpose LED lighting/transmission is efficient means of communications with the multi-Gb/s speed of transmission and covering offices and homes and similar structures.

All above mentioned technologies with their advantages and issues are analyzed in this report, which addresses corresponding markets and applications as well.

The report also surveys 802.11ad and VLC related patents (2017-2018).

The report is written for a wide audience of technical and managerial staff involved in indoor communications development.

Table of Contents

1.0. Introduction

  • 1.1. General
  • 1.2. Statistics
  • 1.3. Scope
  • 1.4. Structure
  • 1.5. Research Methodology
  • 1.6. Target Audience

2.0. Wireline ICT

  • 2.1. PLC - HomePlug
    • 2.1.1. HomePlug Alliance
      • 2.1.1.1. Goal
      • 2.1.1.2. Timetable
    • 2.1.2. HomePlug AV2
      • 2.1.2.1. Advances
        • 2.1.2.1.1. HomePlug AV2-mimo
          • 2.1.2.1.1.1. General
          • 2.1.2.1.1.2. Certification
          • 2.1.2.1.1.3. Major Improvements
          • 2.1.2.1.1.4. Specification Details
          • 2.1.2.1.1.5. MIMO Role
      • 2.1.2.2. Industry
        • Aztech
        • Broadcom
        • D-Link
        • Extollo
        • GigaFast Ethernet
        • Lea Networks
        • Netgear
        • Sineoji
        • Trendnet
        • TP-Link
        • Qualcomm Atheros
        • Zyxel
  • 2.2. HomePNA and ITU G.hn MIMO-based Technologies
    • 2.2.1. HomePNA Alliance (HomeGrid Forum)
    • 2.2.2. Specifications
      • 2.2.2.1. General
      • 2.2.2.2. HomePNA Specification 3.1: Major Features
      • 2.2.2.3. Fast EoC HomePNA
      • 2.2.2.4. Major Benefits
      • 2.2.2.5. ITU G.hn
        • 2.2.2.5.1. General
        • 2.2.2.5.2. G.hn Details
          • 2.2.2.5.2.1. Differences
          • 2.2.2.5.2.2. Common Features
          • 2.2.2.5.2.3. Acceptance
        • 2.2.2.5.3. HomePNA and G.hn Documents
        • 2.2.2.5.4. G.hn-mimo - G.9963
          • 2.2.2.5.4.1. Drivers
          • 2.2.2.5.4.2. G.9963 Details
          • 2.2.2.5.4.3. Industry
  • 2.3. MoCA (Multimedia over Coax Alliance)
    • 2.3.1. General
    • 2.3.2. Partnerships
    • 2.3.3. Details
      • 2.3.3.1. MoCA 2.0
        • 2.3.3.1.1. MoCA 2.0 Technical Highlights
      • 2.3.3.2. MoCA 2.5
    • 2.3.4. Samples of Vendors
      • Arris
      • Broadcom
      • Cisco
      • MaxLinear
      • Netgear
    • 2.3.5. Comparison

3.0. Wireless ICT

  • 3.1. IEEE 802.11ac
    • 3.1.1. Approval
    • 3.1.2. Advanced Wi-Fi Standard
    • 3.1.3. Major Features: Summary
    • 3.1.4. Benefits
    • 3.1.5. Usage Models
    • 3.1.6. Waves
    • 3.1.7. Market Projections
    • 3.1.8. Industry
      • Aerohive
      • Broadcom
      • Buffalo
      • D-Link
      • Huawei
      • Linksys
      • Marvell
      • Netgear
      • Qorvo
      • Quantenna
      • Redpine Signals
    • 3.1.9. MIMO and 802.11ac Standard
      • 3.1.9.1. Comparison
  • 3.2. P802.11ax
    • 3.2.1. Scope
    • 3.2.2. Pre-standard Products
      • Aerohive
      • Asus
      • Broadcom
      • Huawei
      • Intel
      • Marvell
      • Qualcomm
  • 3.3. 60 GHz WLAN
    • 3.3.1. Benefits and Issues
    • 3.3.2. WiGig Alliance
      • 3.3.2.1. Specification: 60 GHz Wi-Fi
      • 3.3.2.2. WiGig Protocol Adaption Layer Specifications
      • 3.3.2.3. WiGig Bus Extension and WiGig Serial Extension Specification
      • 3.3.2.4. WiGig Display Extension Specification
      • 3.3.2.5. Union
    • 3.3.3. IEEE 802.11ad - 60 GHz Wi-Fi
      • 3.3.3.1. Status
      • 3.3.3.2. Coexistence
      • 3.3.3.3. Scope
      • 3.3.3.4. Channelization
      • 3.3.3.5. PHY
      • 3.3.3.6. MAC
      • 3.3.3.7. Specifics
      • 3.3.3.8. Use Cases
      • 3.3.3.9. Industry
        • Blu Wireless
        • Lattice
        • Peraso
        • Qualcomm
        • SiBeam (a Lattice Company)
        • Tensorcom
        • TP-Link
      • 3.3.3.10. Market
        • 3.3.3.10.1. Market Drivers
        • 3.3.3.10.2. Estimate
    • 3.3.4. P802.11ay - Next Generation 60 GHz Wi-Fi
      • 3.3.4.1. Purpose and Schedule
      • 3.3.4.2. Scope
  • 3.4. Visible Light Communications (VLC)
    • 3.4.1. VLC - Innovation
    • 3.4.2. LED Specifics
      • 3.4.2.1. Properties
      • 3.4.2.2. Spectrum
    • 3.4.3. Types
    • 3.4.4. LED Modulation
      • 3.4.4.1. Limitations
    • 3.4.5. LED - Dual Functionality
    • 3.4.6. Developments - History
    • 3.4.7. Technical/Economic Characteristics
    • 3.4.8. Communications Aspects: VLC
      • 3.4.8.1. Place
      • 3.4.8.2. Drivers
      • 3.4.8.3. Industry Activity
      • 3.4.8.4. VLC Standards Development
        • 3.4.8.4.1. The IEEE 802.15.7 Standard
          • 3.4.8.4.1.1. Considerations
          • 3.4.8.4.1.2. Project
        • 3.4.8.4.2. IEEE802.15.7r1
        • 3.4.8.4.3. JEITA (Japan Electronics and Information Technology Industries Association) Standards
          • 3.4.8.4.3.1. JEITA CP-1221
          • 3.4.8.4.3.2. JEITA CP-1222
          • 3.4.8.4.3.3. JEITA CP-1223(2013)
        • 3.4.8.4.4. Visible Light Communications Association (VLCA)
          • 3.4.8.4.4.1. General
          • 3.4.8.4.4.2. Experimental Systems- VLCA Projects
        • 3.4.8.4.5. ARIB T50
        • 3.4.8.4.6. ECMA 397-2010
        • 3.4.8.4.7. Li-Fi Consortium
    • 3.4.9. VLC Channel - Details
      • 3.4.9.1. General
      • 3.4.9.2. Communications Channel
      • 3.4.9.3. Transmitter
      • 3.4.9.4. Receiver
        • 3.4.9.4.1. Image Sensors
        • 3.4.9.4.2. LED as Receiver
      • 3.4.9.5. Major Characteristics
        • 3.4.9.5.1. General
        • 3.4.9.5.2. Modulation
        • 3.4.9.5.3. VLC Channel: Characteristics Summary
      • 3.4.9.6. Emerging Areas
      • 3.4.9.7. Limitations
    • 3.4.10. Applications: Summary
      • 3.4.10.1. Indoor VLC Channel
    • 3.4.11. Market
    • 3.4.12. Industry
      • Axrtek
      • Casio
      • Firefly Wireless Networks
      • LVX
      • Luciom
      • Nakagawa Laboratories
      • NEC
      • Oledcomm
      • Outstanding Technology
      • PureLi-Fi
      • Siemens
      • Supreme Architecture
      • Tamura
    • 3.4.13. 5G View
      • 3.4.13.1. Attocell
      • 3.4.13.2. Cell Structures

5.0. Conclusions

  • Attachment I: 802.11ad - related Patents Survey (2017-2018)
  • Attachment II: VLC - related Patents Survey (2017-2018)

List of Figures

  • Figure 1: HomePlug Major Milestones
  • Figure 2: HomePlug AV2 Features
  • Figure 3: MIMO HomePlug AV2 Channels
  • Figure 4: ITU G.hn and HomePNA Standards
  • Figure 5: G.hn Standards and Technologies
  • Figure 6: HomePNA and G.hn Characteristics
  • Figure 7: G.9963-MIMO (2x2)
  • Figure 8: G.hn- MIMO -Details
  • Figure 9: Maximum Theoretical PHY Rates (home media-wireline communications)
  • Figure 10: Comparative Characteristics
  • Figure 11: G.hn-mimo - Frequency-Rate Characteristics
  • Figure 12: MoCA Roadmap
  • Figure 13: Comparative Characteristics: MoCA Technologies
  • Figure 14: Comparison
  • Figure 15: Evolution of 802.11 Technology
  • Figure 16: Properties - 802.11ac
  • Figure 17: Channel Assignment-802.11ac
  • Figure 18: Specifics-802.11ac
  • Figure 19: Rates/Spatial Streams - 802.11ac
  • Figure 20: Usage Models - 802.11ac
  • Figure 21: 802.11ac WAVEs
  • Figure 22: Estimate-802.11ac Consumers AP Shipping-Global (Bil. Units)
  • Figure 23: Projections-802.11ac Consumers AP Shipping-Global ($B)
  • Figure 24: Estimate: Global Shipping - 802.11ac MU-MIMO Consumers AP ($B)
  • Figure 25: 802.11n vs. 802.11ac
  • Figure 26: Preliminary Schedule
  • Figure 27: Characteristics - 802.11ac and 802.11ax
  • Figure 28: 802.11ad Major Features
  • Figure 29: PHY Characteristics - 802.11ad
  • Figure 30: 802.11ad MAC Structure
  • Figure 31: Use Cases - 802.11ad
  • Figure 32: Estimate: Global Sales of 802.1ad Chipsets (Bil. Units)
  • Figure 33: Estimate: Global Sales of 802.11ad Chipsets ($B)
  • Figure 34: 802.11ay - Proposed Timeline
  • Figure 35: LED Structure
  • Figure 36: Spectrum (450-750 nm - visible)
  • Figure 37: Wavelengths (nm)
  • Figure 38: LED Properties Illustration
  • Figure 39: Laser vs. LED
  • Figure 40: Estimate: U.S. Lighting LED Market ($B)
  • Figure 41: Estimate: U.S. Lighting LED Market (Bil. Units)
  • Figure 42: LED Price Factor (Cents/Lumen)
  • Figure 43: Cost and Brightness- Light Sources
  • Figure 44: WPAN/WLAN Family and VLC
  • Figure 45: Use Cases - VLC
  • Figure 46: Devices and Characteristics - VLC
  • Figure 47: Frequency Plan - 802.15.7
  • Figure 48: Illustration-VLC Channel
  • Figure 49: VLC Properties
  • Figure 50: VLC Applications
  • Figure 51: VLC, IR and RF Communications ITS Applications Comparison
  • Figure 52: Locations Technologies-VLC Place
  • Figure 53: Estimate - Global VLC Market ($B)
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