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市場調査レポート

有線アクセスブロードバンドネットワークの開発における進歩:技術・市場・アプリケーション

Progress in Development Broadband Networks: Wired Access - Technologies, Markets and Applications

発行 PracTel, Inc. 商品コード 369020
出版日 ページ情報 英文 157 Pages
納期: 即日から翌営業日
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本日の銀行送金レート: 1USD=112.65円で換算しております。
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有線アクセスブロードバンドネットワークの開発における進歩:技術・市場・アプリケーション Progress in Development Broadband Networks: Wired Access - Technologies, Markets and Applications
出版日: 2018年08月20日 ページ情報: 英文 157 Pages
概要

当レポートでは、有線ブロードバンドアクセスネットワークの現状および短期的な進歩について調査し、特にパッシブ光ネットワーク (PON) および新世代DSLの技術・市場を中心に分析しており、ブロードバンド有線アクセスにおける重要な動向、および標準化プロセスの分析とともに、お届けいたします。

第1章 イントロダクション

第2章 PON:現在と将来

  • コンセプト
    • PONのメリット
    • PONの提案
    • 詳細
    • PONの分類
    • PONの要素
  • PON:ITU-FSAN ファミリー
    • A/B-PON - G.983.x
    • G-PON - G.984.x
    • XG-PON - G.987x
    • NG-PON2 - G.989x
    • XGS-PON
    • 計画
  • PON:IEEEファミリー
    • 802.3ah - GE - PON
    • 802.3av- 10GE-PON
    • IEEE P802.3ca PON
  • PON市場
    • PONの商業化
    • 要因
    • サービス
    • 市場推計
  • 産業
    • Ad-Net
    • Adtran
    • Alphion
    • Broadcom
    • Calix
    • Cisco
    • Corecess
    • GigaLight
    • Hisense
    • Huawei
    • Marvell
    • 三菱電機
    • NEC (日本電気)
    • Nokia
    • OBN
    • PBN
    • Qualcomm Atheros
    • Raisecom
    • Source Photonics
    • Sun Telecom
    • 住友電気工業
    • Tainet
    • Tellabs
    • ZTE

第3章 DSLの進化

  • 発展
  • DSLファミリー
    • ADSL
    • R-ADSL
    • HDSL
    • IDSL
    • VDSL
    • SDSL
    • サマリー
  • ベクトルDSL - G.993.5-2010
    • 範囲
    • 詳細
    • 主要市場
    • ベンダー
      • Adtran
      • Assia
      • Broadcom
      • Calix
      • Huawei
      • Intel/Lantiq
      • Nokia
      • Siligence
      • Zyxel
      • ZTE
  • G.fast
    • 標準
    • ベクトル化を上回る改善
    • モデル
    • 主な特徴
    • テスト・トレーニング
    • FTTdp
    • 産業
      • Adtran
      • Arris
      • Broadcom
      • Calix
      • Huawei
      • Metanoia
      • Nokia
      • Qualcomm/Ikonos
      • Sagemcom
      • Sckipio
      • XAVi
      • Zinwell
    • 市場

第4章 RFoGの発展

  • HFC技術
  • RFoGソリューション
    • 全般
    • 標準化
  • HFCとRFoGの類似点と相違点
  • RFoGの主な利点と課題
  • 将来の拡張 - RF-PON
  • 市場推計
    • ニーズ
    • 予測
  • RFoG産業
    • Adtran
    • Arris
    • BKtel
    • Calix
    • Cisco
    • CTDI
    • Electroline
    • Emcore
    • Multicom
    • PBN
    • Titan Photonics

第5章 結論

付録I:ベクトル化DSL - 関連特許調査

付録II:NG-PON2 - 関連特許調査

目次

This report updates the status on wired broadband access technologies, their markets, applications and industries.

Wired broadband access technologies are playing an important role in today networks- cable accounts for 55%-60% of the U.S. fixed broadband market. However, until recently, technical and economic problems with such access did not allow effective use of a broadband pipe from a core to a subscriber side, minimizing a value of broadband communications.

The problems have been known for a long time, but absence of a cost-effective technology in the distribution plant prevented making any practical improvements. The specifics of access, such as the necessity to create highly distributed infrastructure and the price to support access service always contradicted each other. The situation changed with appearance Passive Optical Networks (PONs), their various modifications and progress in architecting of high-speed DSL, such as vectoring DSL.

The goal of this report is to address current and near-term advances in wired broadband access networks that are transforming them into broadband pipes with characteristics similar to characteristics of the core networks. Particular, the report concentrates on the analysis technologies and markets for the following access architectures:

  • Passive Optical Networks - standardized or planning to be standardized by the IEEE and ITU-FSAN. Evolving PONs will allow transmission up to 100 Gb/s (shared).
  • New generations DSL - in the development and standardization by the ITU and the industry, including vectoring and G.fast. The technologies may support short reaches connectivity on the existing copper structures with speeds near 1 Gb/s (non-shared).
  • RFoG - technology that allows efficient use of fiber combined with a short coaxial path to the user, allowing to reach gigabit per second speed and improving the economics of broadband access.

The report shows that the copper infrastructure continues to play an important role for connecting last hundreds meters from/to a subscriber equipment with the rest of the network. Advanced gigabit speed access technologies, such as DSL (G.fast, VDSL2-vec), are key in creating a homogenous and cost efficient core-access infrastructure. For example, in 2017, AT&T has begun rolling out G.fast-based services in 22 metro markets across the United States, signaling the service provider's desire to extend higher speed wireline broadband services in premises where it can't make a business case for all fiber.

PONs provide cost-efficient connectivity of the core with subscriber's equipment, supporting required by users characteristics, such as speed of transmission and other. Currently, service providers have three major next-generation FSAN PON paths: 10G-PON, XGS-PON and NG-PON2. Verizon, for example, plans to move directly to NG-PON2.

The IEEE NG-EPON standard 802.3ca, which promises the 100 Gb/s speed, planned to be finalized by 2020.

The report also stresses an important trend in the broadband wired access: utilization of multi-functional platforms that allow flexibility and cost efficiency to serve a diversified group of users required different technologies.

The standardization processes are analyzed in details. Marketing statistics have been developed (2018-2022). The report also presents detailed surveys of companies that are working in the related industries and their products portfolios. Attachments contain the survey of recently approved patents related to the report subject.

The report is written for a wide audience of technical, managerial and sales staff involved in the development wired broadband access networks.

Table of Contents

1.0. Introduction

  • 1.1. Issue
  • 1.2. Changes
    • 1.2.1. 5G Necessity
  • 1.3. PON Appearance
  • 1.4. DSL Developments
  • 1.5. RFoG
  • 1.6. Scope
  • 1.7. Research Methodology
  • 1.8. Target Audience

2.0. PON: Today and Tomorrow

  • 2.1. Concept
    • 2.1.1. PON Benefits
    • 2.1.2. The PON Proposition
    • 2.1.3. Details
    • 2.1.4. PON Classification
    • 2.1.5. PON Elements
      • 2.1.5.1. Optical Line Termination (OLT)
        • 2.1.5.1.1. PON Core Shell
        • 2.1.5.1.2. Cross-connect Shell
        • 2.1.5.1.3. Service Shell
        • 2.1.5.1.4. OLT Responsibilities
          • 2.1.5.1.4.1. Bandwidth Allocation
          • 2.1.5.1.4.2. Grant Mechanism
          • 2.1.5.1.4.3. Capture Effect
          • 2.1.5.1.4.4. Ranging
          • 2.1.5.1.4.5. Burst Mode Transceiver
      • 2.1.5.2. Optical Network Unit (ONU)
      • 2.1.5.3. Optical Distribution Network (ODN)
  • 2.2. PON: ITU-FSAN Family
    • 2.2.1. A/B-PON-G.983.x
    • 2.2.2. G-PON-G.984.x
    • 2.2.3. XG-PON-G.987x
    • 2.2.4. NG-PON2-G.989x
      • 2.2.4.1. Project
      • 2.2.4.2. NG-PON2-General
      • 2.2.4.3. Major Properties
      • 2.2.4.4. Characteristics
        • 2.2.4.4.1. Support
        • 2.2.4.4.2. Rates and Reaches
        • 2.2.4.4.3. Combinations
      • 2.2.4.5. Services
      • 2.2.4.6. Capacity
      • 2.2.4.7. Spectrum Allocation
      • 2.2.4.8. Line Rate Summary
    • 2.2.5. XGS-PON
    • 2.2.6. Plans
  • 2.3. PON: IEEE Family
    • 2.3.1. 802.3ah-GE-PON
    • 2.3.2. 802.3av- 10GE-PON
      • 2.3.2.1. Goal
      • 2.3.2.2. Status
      • 2.3.2.3. Standard's Scope and Objectives
      • 2.3.2.4. 10GE-PON Technology Specifics
        • 2.3.2.4.1. Inheritance
        • 2.3.2.4.2. Properties
        • 2.3.2.4.3. Dynamic Bandwidth Allocation
      • 2.3.2.5. 10GE-PON: Drivers and Target Applications
    • 2.3.3. IEEE P802.3ca PON
  • 2.4. PON Market
    • 2.4.1. PON Commercialized
    • 2.4.2. Factor
    • 2.4.3. Services
    • 2.4.4. Market Estimate
      • 2.4.4.1. Equipment Sales
      • 2.4.4.2. Market Geography
      • 2.4.4.3. Service Providers Revenue
  • 2.5. Industry
    • Ad-Net
    • Adtran
    • Alphion
    • Broadcom
    • Calix
    • Cisco
    • Corecess
    • GigaLight
    • Hisense
    • Huawei
    • Marvell
    • Mitsubishi Electric
    • NEC
    • Nokia
    • OBN
    • PBN
    • Qualcomm Atheros
    • Raisecom
    • Source Photonics
    • Sun Telecom
    • Sumitomo Electric Networks
    • Tainet
    • Tellabs
    • ZTE

3.0. DSL Evolution

  • 3.1. Developments
    • 3.1.1. Statistics
  • 3.2. DSL Family
    • 3.2.1. ADSL
    • 3.2.2. R-ADSL
    • 3.2.3. HDSL
    • 3.2.4. IDSL
    • 3.2.5. VDSL
    • 3.2.6. SDSL
    • 3.2.7. Summary
  • 3.3. Vectored DSL-G.993.5-2010
    • 3.3.1. Scope
    • 3.3.2. Details
      • 3.3.2.1. Summary
      • 3.3.2.2. Broadband Forum Contributions
    • 3.3.3. Market
    • 3.3.4. Vendors
      • Adtran
      • Assia
      • Broadcom
      • Calix
      • Huawei
      • Intel/Lantiq
      • Nokia
      • Siligence
      • Zyxel
      • ZTE
  • 3.4. G.fast
    • 3.4.1. Standards
    • 3.4.2. Improvements over Vectoring
    • 3.4.3. Models-FTTdp
    • 3.4.4. Major Characteristics
    • 3.4.5. Testing and Trialing
    • 3.4.6. Further Developments-G.mgfast
    • 3.4.7. Industry
      • Adtran
      • Arris
      • Broadcom
      • Calix
      • Dasan Networks
      • Huawei
      • Metanoia
      • Nokia
      • Qualcomm/Ikonos
      • Sagemcom
      • Sckipio
      • XAVi
      • Zinwell
    • 3.4.8. Market

4.0. RFoG Development

  • 4.1. Hybrid Fiber Coaxial (HFC) Technology
  • 4.2. RFoG Solution
    • 4.2.1. General
    • 4.2.2. Standardization
      • 4.2.2.1. Process
      • 4.2.2.2. Details
        • 4.2.2.2.1. ANSI/SCTE 174 2010
        • 4.2.2.2.2. Summary
        • 4.2.2.2.3. IEC
      • 4.2.2.3. Industry Needs
      • 4.2.2.4. Target
  • 4.3. Similarities and Differences (HFC and RFoG)
  • 4.4. RFoG Major Benefits and Issues
  • 4.5. Future Extensions-RF-PON
  • 4.6. Market Estimate
    • 4.6.1. Need
    • 4.6.2. Forecast
  • 4.7. RFoG Industry
    • Adtran
    • Arris
    • BKtel
    • Calix
    • Cisco
    • CTDI
    • Electroline
    • Emcore
    • Multicom
    • PBN
    • Titan Photonics

5.0. Conclusions

Attachment 1: Vectoring DSL-related Patents Survey (2015-2018)

Attachment 2: NG-PON2-related Patents Survey (2015-2018)

List of Figures:

  • Figure 1: PON Reference Model
  • Figure 2: PON Details
  • Figure 3: PON Architecture Example
  • Figure 4: OLT Functional Block Diagram
  • Figure 5: ONU Functional Block Diagram
  • Figure 6: FSAN Roadmap
  • Figure 7: B-PON Frequency Arrangements
  • Figure 8: ITU Process
  • Figure 9: Functional Diagram-G.989 System
  • Figure 10: NG-PON2 Frequency Plan
  • Figure 11: GE-PON- 10GE-PON Scenario
  • Figure 12: 10GE-PON Spectrum Allocation
  • Figure 13: 802.3ca Time Schedule (as of June, 2018)
  • Figure 14: Price vs Wired Houses %
  • Figure 15: Estimate-PON Equipment Global Sales ($B)
  • Figure 16: Estimate-PON ONUs Global Sales ($B)
  • Figure 17: Estimate-xGPON Equipment Global Sales ($B)
  • Figure 18: PON Technology Geography-Major Regions (2018)
  • Figure 19: PON U.S. Providers (2018)
  • Figure 20: Estimate: U.S. PON Service Providers Revenue ($B)
  • Figure 21: Market Share (%)-Major Broadband Access Technologies (2018)
  • Figure 22: FEXT Illustration
  • Figure 23: Reference Model-Vectored System (ITU Rec. G.993.5)
  • Figure 24: Vectored DSL-Characteristics Improvement
  • Figure 25: Vectored DSL Channel
  • Figure 26: Estimate: Premises Passed - VDSL2-Global (Mil.)
  • Figure 27: Estimate: Global Shipments of Vectored VDSL2 Ports (Mil. units)
  • Figure 28: DPU-Illustration
  • Figure 29: G.fast Illustration
  • Figure 30: Illustration-G.fast Link Arrangements
  • Figure 31: Estimate: G.fast Chips Sales-Global (Bil. Units)
  • Figure 32: Estimate- G.fast Chipsets Global Market ($B)
  • Figure 33: HFC Frequencies Assignment Illustration
  • Figure 34: RFoG Reference Architecture
  • Figure 35: ONU-R Block Diagrams
  • Figure 36: HFC and RFoG Illustration
  • Figure 37: Illustration: PON Overlay
  • Figure 38: Comparative Characteristics
  • Figure 39: Estimate: Global-RFoG Equipment Sales ($B)
  • Figure 40: Estimate: Global-RFoG Service Providers Revenue ($B)

List of Tables:

  • Table 1: G-PON Transmission Rates
  • Table 2: G.987 Family
  • Table 3: NG-PON2-Line Rates
  • Table 4: EFM Signaling Schemes
  • Table 5: Interfaces-10GE PON
  • Table 6: PONs Compared
  • Table 7: PON Service Scenarios
  • Table 8: DSL Family Evolution
  • Table 9: ADSL Characteristics
  • Table 10: Parameters
  • Table 11: Bandwidth
  • Table 12: Optical Budget
  • Table 13: Downstream Transmission
  • Table 14: Frequency Plans
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