市場調査レポート

5G時代への移行:技術・アプリケーション・市場の評価

Transition to 5G Era- Technologies, Applications and Markets Assessment

発行 Practel, Inc. 商品コード 330374
出版日 ページ情報 英文
納期: 即日から翌営業日
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5G時代への移行:技術・アプリケーション・市場の評価 Transition to 5G Era- Technologies, Applications and Markets Assessment
出版日: 2015年05月15日 ページ情報: 英文
概要

現在の世界における情報通信市場では、いまだ3G技術が主流で4G技術の市場シェアは5〜7%程度ですが、業界ではすでに5G技術の開発・導入に向けた動きが活発化しています。

当レポートでは、世界の情報通信技術 (ICT) 市場が現在体験している変化 - 5G技術への移行 - について分析し、5Gの特徴や、導入に際しての主な必要事項、現在/将来の活用状況見通し、今後の技術・市場の推移、主な使用事例などについて調査しております。

第1章 イントロダクション

第2章 貢献要因

  • 全体的状況
  • 5Gのタイムテーブル(3GPP-ITU)
  • 活動調査

第3章 現状分析:5G技術

  • 将来展望
  • 有望な方向性
    • 要件
    • 共通の見解
    • ここから始まる「未来」
  • 課題
  • 使用事例
    • 全体的な特徴
    • モバイルブロードバンド
    • 自動車
    • スマート・ソサエティ

第4章 ソフトウェア定義/コグニティブ無線

  • 5GおよびCR/SDR
  • 汎用無線
  • 専用無線
  • 定義 (WIF, FCC, ITU)
  • 汎用性
  • 課題
  • 監督機関・規制
  • 意思決定
  • 特徴
  • 要素
  • 活用分野
    • 商業活動
    • SDR (ソフトウェア定義無線) と軍事
  • STRS
  • SDR/CR:使用上の利点
  • 影響度
  • 相違点
  • 市場
    • 環境
    • 構成要素
    • 傾向
    • コスト
    • 様々な見解
    • 市場促進要因
    • 市場予測
  • 業界
    • Aeronix (SDR用部品)
    • AirNet Communications (SDR用基地局)
    • Alcatel-Lucent (基地局)
    • Analog Devices (チップセット)
    • Array Systems Computing (DSP)
    • Cambridge Consultants (Phy, 基地局)
    • Carlson Wireless (プラットフォーム)
    • Cisco (802.11a)
    • CRT (CR SW)
    • DataSoft (SDR設計、ソフトウェア)
    • Etherstack (ソフトウェア)
    • Green Hills (ソフトウェア)
    • Harris (SDR)
    • Huawei (プラットフォーム)
    • Intel-Infineon (プラットフォーム)
    • Mercury Systems (ツールセット)
    • Nokia Siemens Networks (基地局)
    • Nutaq
    • PrismTech (SDR開発環境)
    • Rockwell Collins (無線)
    • Spectrum Signal Processing (プラットフォーム)
    • Thales (無線)
    • TI (チップセット)
    • Wind River (ソフトウェア)
    • xG Technology (無線)
    • ZTE (基地局)

第5章 MIMOと5G

  • 沿革
  • 概念:無線通信におけるMIMO
    • 主要技術
  • MIMOの種類
  • 5G:MIMOの使用
    • MMIMO:超大型MIMO
  • MIMOの利点

第6章 mmWAVE - 802.11adの調査

  • 5Gおよび802.11ad
    • 5G周波数帯域の拡張
    • 5G:圧縮化
  • 目標
  • 一般的状況
  • 60GHz周波数帯域の使用
    • 周波数待機の割り当て
    • 酸素吸収量
  • アンテナ
  • 60GHzまでの出力制限
  • 複合効果
  • チップ技術の進歩
    • 課題と努力
    • モジュール化
    • 仕様
  • サマリー
  • 将来展望:60GHz Wi-Fi
    • 利点と課題
    • WiGig Alliance
    • IEEE 802.11ad - 60 GHz Wi-Fi
  • 業界
    • Beam Networks
    • Blu Wireless
    • Intel
    • Nitero
    • Peraso
    • Samsung
    • Tensorcom
    • Wilocity (2014年にQualcommが買収)
  • 市場の考察
    • 市場促進要因
    • 使用方法のモデル
    • 事前の市場予測

第7章 可視光通信:5G技術

  • 全体的状況
    • 促進要因
    • 産業活動
  • VLCの規格の開発
    • The IEEE 802.15.7
    • JEITA (電子情報技術産業協会)
    • Visible Light Communications Consortium (VLCC)
    • Li-Fi Consortium
  • 詳細
    • 通信チャネル
    • 送信機
    • 受信機
    • 主な特徴
    • 主な課題
  • 企業・組織
    • ECMA
    • ByteLight
    • カシオ
    • LVX
    • 中川研究所
    • 日本電気
    • Oledcomm
    • Omega Project
    • Outstanding Technology
    • PureVLC-PureLi-Fi
    • ルネサス エレクトロニクス
    • Siemens
    • Supreme Architecture
    • TCL
    • タムラ製作所
  • 主な用途
    • ITS
    • 光ワイヤレスLAN
    • 医療
    • ローカライズ
    • 全都市レベルのワイヤレスネットワーク
    • サマリー
  • 5G View
    • セル構造
  • 市場

第8章 結論

図表一覧

目次

This report addresses issues related to WICT transition to the 5G era. Though, currently, 4G networking penetrated only not more than 5%-7% of the market on a global scale, the industry is already actively looking for changes and additions necessary to enter the next WICT generation - 5G.

The report provides details on:

  • Major 5G requirements
  • Major characteristics of 5G systems
  • Industry activity
  • Time frame for 5G
  • Associated issues
  • Use cases.

The report shows that 5G communications will be using advances of 4G networking. The main goal of 5G - ubiquitous connectivity between people, machines, and devices based on smart utilization of limited amount of the spectrum - started to materialize already in our time. In connection with this process, the report details four forward-looking technologies. They are:

  • Cognitive Radio/Software Defined Radio (CR/SDR)
  • Massive MIMO
  • 60 GHz Wi-Fi
  • Visible Light Communications (VLC).

All these technologies have a common denominator:

  • Their commercialization is still limited
  • They will allow either economical use of the spectrum, or shift to spectrum windows that were not previously utilized
  • They all are considered by the industry as 5G technologies.

-It is expected that CR/SDR technologies will prevail in mobile communications, making mobile networking much more efficient and economical. Self-adjusted to surrounding spectrum conditions, CR/SDR-based BSs will support multi-standards communications between users equipped with SDR-based mobile units. Major CR/SDR issues, such as excessive power consumption, bulkiness and high cost are expected to be resolved or softened in the 5G era.

The report analyzes the status of the CR/SDR development, technological and marketing features and vendors' profiles.

-Massive MIMO is a cornerstone technology in reaching the 5G target: thousand fold capacity increase in Base Stations by 2020. The massive MIMO concept is based on equipping base stations with hundreds or thousands of antenna elements, which, unlike conventional cellular technology, are operated in a coherent fashion. This can provide unprecedented array gains and a spatial resolution that allows for multi-user MIMO communication to tens or hundreds of user equipment per cell, while maintaining robustness to inter-user interference.

The report addresses the current status of the MIMO technology, their types and benefits.

-60 GHz WI-Fi (802.11d) - One of the directions to extend useable spectrum in the 5G era for mobile and other types of communications will be utilization of huge mmWAVE spectrum, which until now was practically closed to commercial communications. 802.11ad is one of the first international standards that utilize 7- 9 GHz of mmWAVE spectrum. Though still immature, the 802.11ad industry shows all signs of success. The report analyzes this technology, its specifics, applications and markets. It shows that this technology development supports 5G requirements that based on densification and shrinkage of cells.

-VLC is being in development for several years, but is still immature. 5G planners are considering this technology belonging to the 5G era - it opens unutilized previously for communications visible light frequencies bringing unlimited capabilities of so-called attocell BSs and multi-gigabit-per-second transmission. VLC is also combined with lighting and that makes it very cost-attractive. The report details this technology standardization, applications, specific features, industry and market.

The report is written for WICT planners, developers and a wide audience of technical and managerial staff of communications equipment vendors and users.

Table of Contents

1.0 Introduction

  • 1.1 General
  • 1.2 Planning Wireless Technologies: Generations
  • 1.3 Goal
  • 1.4 Structure
  • 1.5 Research Methodology
  • 1.6 Target Audience

2.0 Contributors

  • 2.1 General
  • 2.2 5G Timetable (3GPP-ITU)
    • 2.2.1 Leaders: 5G Activity
  • 2.3 Activity Survey
    • 2.3.1 METIS 2020
    • 2.3.2 EU Other 5G Projects
    • 2.3.3 Next Generation Mobile Networks (NGMN) Ltd
    • 2.3.4 5G-PPP (5G Public Private Partnership)
    • 2.3.5 4G Americas
    • 2.3.6 GSMA

3.0 Current View: 5G Technologies

  • 3.1 Look into the Future
  • 3.2 Promising Directions
    • 3.2.1 Requirements
    • 3.2.2 Common Views
    • 3.2.3 Future - Starts Today
    • 3.3 Issues
  • 3.4 Use Cases
    • 3.4.1 General -Characteristics
    • 3.4.2 Mobile Broadband
    • 3.4.3 Automotive
    • 3.4.4 Smart Society

4.0 Software Defined and Cognitive Radios

  • 4.1 5G and CR/SDR
  • 4.2 General
  • 4.3 Purpose
  • 4.4 Definition (WIF, FCC, ITU)
  • 4.5 Versatility
  • 4.6 Issues
  • 4.7 Organizations and Regulations
    • 4.7.1 Wireless Innovation Forum Position
    • 4.7.2 FCC
    • 4.7.3 Object Management Group - OMG
    • 4.7.4 ETSI
  • 4.8 Decisions
  • 4.9 Features
  • 4.10 Elements
  • 4.11 Applications
    • 4.11.1 Commercial
    • 4.11.2 SDR and Military
  • 4.12 STRS
  • 4.13 SDR/CR: Applications Benefits
  • 4.14 Impact
  • 4.15 Differences
  • 4.16 Market
    • 4.16.1 Landscape
    • 4.16.2 Components
    • 4.16.3 Trends
    • 4.16.4 Cost
    • 4.16.5 Different Perspective
    • 4.16.6 Drivers
    • 4.16.7 Market Forecast
  • 4.17 Industry
    • Aeronix (SDR Components)
    • AirNet Communications (SDR Base Stations)
    • Alcatel-Lucent (Base Station)
    • Analog Devices (Chipsets)
    • Array Systems Computing (DSP)
    • Cambridge Consultants (Phy, Base Station)
    • Carlson Wireless (Platform)
    • Cisco (802.11a)
    • CRT (CR SW)
    • DataSoft (SDR Design, SW)
    • Etherstack (Software)
    • Green Hills (Software)
    • Harris (SDR)
    • Huawei (Platform)
    • Intel-Infineon (Platform)
    • Mercury Systems (Toolsets)
    • Nokia Siemens Networks (Base Station)
    • Nutaq
    • PrismTech (SDR Development Environment)
    • Rockwell Collins (Radios)
    • Spectrum Signal Processing (Platforms)
    • Thales (Radio)
    • TI (Chips)
    • Wind River (Software)
    • xG Technology (Radio)
    • ZTE (Platforms)

5.0 MIMO and 5G

  • 5.1 History
  • 5.2 Concept: MIMO in Wireless Communications
    • 5.2.1 Major Techniques
  • 5.3 Types of MIMO
  • 5.4 5G - MIMO Specifics
    • 5.4.1 MMIMO - Massive MIMO
  • 5.5 MIMO Benefits

6.0 Exploring mmWAVE - 802.11ad

  • 6.1 5G and 802.11ad
    • 6.1.1 5G Spectrum Extension
    • 6.1.2 5G - Densification
  • 6.2 Goal
  • 6.3 General
  • 6.4 60 GHz Band Spectrum Specifics
    • 6.4.1 Frequencies Allocation
    • 6.4.2 Oxygen Absorption
  • 6.5 Antenna
  • 6.6 Radiation Limiting at 60 GHz
  • 6.7 Combined Effect
  • 6.8 Progress in the Chip Technology
    • 6.8.1 Challenges and Efforts
    • 6.8.2 Modulation
    • 6.8.3 Specifics
  • 6.9 Summary
  • 6.10 Prospectus: 60 GHz Wi-Fi
    • 6.10.1 Benefits and Issues
    • 6.10.2 WiGig Alliance
    • 6.10.3 IEEE 802.11ad - 60 GHz Wi-Fi
  • 6.11 Industry
    • Beam Networks
    • Blu Wireless
    • Intel
    • Nitero
    • Peraso
    • Samsung
    • Tensorcom
    • Wilocity (acquired by Qualcomm in 2014)
  • 6.12 Market Considerations
    • 6.12.1 Market Drivers
    • 6.12.2 Usage Models
    • 6.12.3 Preliminary Market Estimate

7.0 Visible Light Communications - 5G Technology

  • 7.1 General
    • 7.1.1 Drivers
    • 7.1.2 Industry Activity
  • 7.2 VLC Standards Development
    • 7.2.1 The IEEE 802.15.7
    • 7.2.2 Jeita (Japan Electronics and Information Technology Industries Association)
    • 7.2.3 Visible Light Communications Consortium (VLCC)
    • 7.2.4 Li-Fi Consortium
  • 7.3 Details
    • 7.3.1 Communications Channel
    • 7.3.2 Transmitter
    • 7.3.3 Receiver
    • 7.3.4 Major Characteristics
    • 7.3.5 Major Challenges
  • 7.4 Companies and Organizations
    • ECMA
    • ByteLight
    • Casio
    • LVX
    • Nakagawa Laboratories
    • NEC
    • Oledcomm
    • Omega Project
    • Outstanding Technology
    • PureVLC-PureLi-Fi
    • Renesas
    • Siemens
    • Supreme Architecture
    • TCL
    • Tamura
  • 7.5 Major Applications
    • 7.5.1 ITS
    • 7.5.2 Optical Wireless LAN
    • 7.5.3 Healthcare
    • 7.5.4 Localization
    • 7.5.5 City Wide Wireless Network
    • 7.5.6 Summary
  • 7.6 5G View
    • 7.6.1 Cell Structures
  • 7.7 Market

8.0 Conclusions

  • Figure 1: Mobile Generations
  • Figure 2: Time - Mobile Generations
  • Figure 3: ITU-R Schedule for IMT-2020
  • Figure 4: 3GPP - Tentative Timeline - 5G Standardization
  • Figure 5: Current View
  • Figure 6: Spectrum
  • Figure 7: Technologies Directions
  • Figure 8: Use Cases-General
  • Figure 9: Use Cases - Rate of Transmission and Latency
  • Figure 10: SDR and OSI Reference Model
  • Figure 11: SDR - Structure
  • Figure 12: TAM: Global SDR Sales ($B)
  • Figure 13: SDR Market Geography (2015)
  • Figure 14: Major Antenna Configurations
  • Figure 15: MIMO Concept (2x2)
  • Figure 16: Illustration - Beamforming
  • Figure 17: MU-MIMO - Downlink
  • Figure 18: SU-MIMO and MU-MIMO
  • Figure 19: MMIMO
  • Figure 20: Exploring IMT Spectrum
  • Figure 21: 60 GHz Channels
  • Figure 22: 60 GHz Frequencies Plan
  • Figure 23: Spectrum Details
  • Figure 24: Signal Attenuation in 60 GHz Band
  • Figure 25: Absorption Details
  • Figure 26: Bands Features Comparison
  • Figure 27: Planes
  • Figure 28: Usage Cases
  • Figure 29: 802.11ad MAC
  • Figure 30: Summary
  • Figure 31: TAM: 802.11ad Chipsets Sales - Global (Bil. Units)
  • Figure 32: TAM: 802.11ad Chipsets Global Sales ($B)
  • Figure 33: VLC - Comparison
  • Figure 34: Illustration-VLC Channel
  • Figure 35: VLC Market Categories
  • Figure 36: TAM: Global - VLC Technology ($B)
  • Table 1: Major Characteristics
  • Table 2: 5G Use Case Families
  • Table 3: Tiers
  • Table 4: CR Features
  • Table 5: ETSI Documents
  • Table 6: SDR Market Drivers
  • Table 7: SDR Market Segments (Military vs. Commercial)
  • Table 8: MIMO - 3GPP Releases
  • Table 9: MIMO Benefits
  • Table 10: 60 GHz Radio Standardization
  • Table 11: Directivity
  • Table 12: 60 GHz Links Characteristics
  • Table 13: 802.11ad Major Features
  • Table 14: 60 GHz Wi-Fi Usage Cases
  • Table 15: Use Cases
  • Table 16: Devices and Characteristics
  • Table 17: Frequency Plan
  • Table 18: VLC Properties
  • Table 19: VLC, IR and RF Communications ITS Applications Comparison
  • Table 20: Locations Technologies-VLC Place
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