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市場調查報告書

新行動網路架構的影響:營運商是否會在中期享受到龐大利益? 5G是否會降低對傳統設備供應商的依賴?

Impact of New Mobile Network Architectures: Will Operators See Significant Gains in the Medium Term? Will 5G Lessen Their Dependence on Traditional Equipment Suppliers?

出版商 IDATE DigiWorld 商品編碼 940101
出版日期 內容資訊 英文 61 Pages
商品交期: 最快1-2個工作天內
價格
新行動網路架構的影響:營運商是否會在中期享受到龐大利益? 5G是否會降低對傳統設備供應商的依賴? Impact of New Mobile Network Architectures: Will Operators See Significant Gains in the Medium Term? Will 5G Lessen Their Dependence on Traditional Equipment Suppliers?
出版日期: 2020年06月02日內容資訊: 英文 61 Pages
簡介

本報告研究新行動網路架構的影響,彙整市場機會和未來影響、按聯盟和供應商的市場參與企業行動、案例研討等情報。

目錄

第1章 摘要整理

第2章 5G與新網路架構

  • 重要概念
    • 適用行動網路的虛擬化核心原則
    • 行動接取網路架構的演進
    • 基礎建設網路中的邊緣運算導入
    • 5G New Radio(NR)核心網路:非獨立和獨立架構
    • 創造網路切片的機會
  • 頻譜與5G
    • 頻譜:對網路拓撲的影響
    • RAN演進:從昨日到今日、以及明日
    • 5G大幅擴大可用頻譜
    • 網路密度增加:問題和解決方案
    • 未授權頻譜的接取
    • 促進轉向SA架構的動態頻譜共享
    • 毫米波頻段的魅力

第3章 舉措

  • 聯盟
    • 網路虛擬化:營運商業務改革
    • 加速不可避轉型的聯合舉措
    • O-RAN Alliance和TIP推動Open RAN之2大主要合作
  • RAN供應商
    • 新RAN設備供應商
    • 新參與企業
    • RAN新參與企業和其他網路組件資深供應商
    • 資深RAN設備供應商

第4章 Rollout

  • 案例研討
    • 案例研討:中國移動及其無可比擬的網路
    • 樂天的完全虛擬化網路承諾
    • Telefonica
    • Vodafone UK
  • 經驗教訓
    • 核心網路選擇經驗教訓:NSA vs. SA
    • 頻譜選擇和其對Rollout策略的影響相關經驗教訓
    • Rollout策略經驗教訓:接取網路
    • Rollout策略經驗教訓:Open RAN的興起
    • 技術選擇如何影響營運商的經濟方程式

第5章 結論

  • True 5G需要營運商的深層改革
  • 5G頻譜
  • 核心網路及其對RAN的影響
  • 行動營運商
  • 行動網路設備供應商
  • 建議
目錄
Product Code: M20420MRA

This report answers the following questions:

  • Will virtualisation of the 5G radio access network truly enable significant gains for operators in the medium term?
  • What impact will dynamic spectrum management have on 5G?
  • What is the timetable for a standalone (SA) core network , the gateway to true 5G?
  • Will operators no longer be dependent on traditional equipment suppliers ? Who are the RAN mavericks?
  • What impact will new entrants from the US have on the RAN market?
  • Which operators are spearheading the adoption of 5G wireless network virtualisation ?

Table of Contents

1. Executive Summary

2. 5G and new network architectures

  • 2.1. Key concepts
    • 2.1.1. Core principles of virtualisation applied to mobile networks
    • 2.1.2. Evolution of mobile access network architecture
    • 2.1.3. Introduction of Edge Computing in the infrastructures network
    • 2.1.4. 5G New Radio (NR) core network: non standalone and standalone architectures
    • 2.1.5. Opportunities created by network slicing
  • 2.2. Spectrum and 5G
    • 2.2.1. Spectrum: influential in network topology
    • 2.2.2. The RAN's evolution: from yesterday to today to tomorrow
    • 2.2.3. 5G expands available spectrum considerably
    • 2.2.4. Increased network density: both a problem and a solution
    • 2.2.5. Access to unlicensed spectrum
    • 2.2.6. Dynamic Spectrum Sharing to facilitate the transition to an SA architecture
    • 2.2.7. Appeal of millimetre wave bands

3. Initiatives

  • 3.1. Alliances
    • 3.1.1. Network virtualisation: transforming operators' business
    • 3.1.2. Joint initiatives to accelerate an inevitable transition
    • 3.1.3. O-RAN Alliance and TIP, two main alliances promoting Open RAN
  • 3.2. RAN suppliers
    • 3.2.1. New RAN equipment suppliers
    • 3.2.2. The new entrants
    • 3.2.3. New entrants to RAN and veteran suppliers of other network components
    • 3.2.4. Veteran RAN equipment suppliers

4. Rollouts

  • 4.1. Case studies
    • 4.1.1. Case study: China Mobile and its unparalleled network
    • 4.1.2. Rakuten, the promises of a fully virtualised network
    • 4.1.3. Telefónica
    • 4.1.4. Vodafone UK
  • 4.2. Lessons learned
    • 4.2.1. Lessons on the choice of core network: NSA vs. SA
    • 4.2.2. Lessons learned on spectrum choices and their and impact on rollout strategies
    • 4.2.3. Lessons learned on rollout strategies: the access network
    • 4.2.4. Lessons learned on rollout strategies: the rise of Open RAN
    • 4.2.5. How technological choices affect operators' economic equation

5. Conclusions

  • 5.1. True 5G requires a deep-seated transformation by operators
  • 5.2. 5G spectrum
  • 5.3. The core network and its impact on the RAN
  • 5.4. Mobile operators
  • 5.5. Mobile network equipment suppliers
  • 5.6. Recommendations

List of tables and figures

2. 5G and new network architectures

  • How SDN works
  • How iNFV works
  • Cost comparison between D-RAN and C-RAN on the TD-SCDMA network operated by China Mobile
  • Cost comparison between D-RAN and vRAN over five consecutive year in a densely populated area
  • Allocation of required means to services by slice
  • Comparison of the services' different speed and latency requirements
  • Pros and cons of the different types of spectrum
  • How calling networks have evolved to accommodate more complex and demanding uses
  • An approach disaggregated from the RAN makes it easier to perform rollouts and increase the network's density

3. Initiatives

  • One of the transformations sought by network virtualisation is the ability to be free of vendor lock-in/lock-out
  • Main alliances devoted to promoting the development of open vRAN solutions
  • Huawei, major absentee from the two main Open RAN alliances

4. Rollouts

  • China Mobile's ongoing RAN developments
  • Features of Rakuten Mobile's RAN
  • Telefónica's current RAN developments
  • A number of vRAN and Open RAN initiatives, still in the trial stage
  • Vodafone UK's current RAN developments
  • Pros and cons of NSA and SA
  • mmWave bands, a plus in the medium/long term
  • Pros and cons of open and non open vRAN solutions
  • A horizontal and vertical disaggregation of the RAN
  • Pros and cons of Open RAN depending on population density
  • Expected economic benefits for mobile operators adopting vRAN solutions

5. Conclusions

  • Mobile operators' adoption of virtualisation in the RAN
  • Five veteran suppliers' (Ericsson, Huawei, Nokia, Samsung, ZTE) share of the RAN market

Geographic area

  • World

Players

  • AT&T
  • Accelleran
  • Affirmed Networks
  • Airspan
  • Altiostar
  • Amazon
  • Aricent
  • Baicells
  • Bouygues
  • BT
  • China Mobile
  • China Telecom
  • China Unicom
  • Cisco
  • Comba
  • Comcast
  • Commscope
  • Dell
  • Deutsche Telekom
  • Dish
  • Docomo
  • Ericsson
  • Etisalat
  • Facebook
  • Gemtek
  • Google
  • Huawei
  • Intel
  • JMA Wireless
  • KDDI
  • KPN
  • KT
  • LG U+
  • Mavenir
  • Metaswitch
  • NEC
  • Nokia
  • NuRAN wireless
  • Orange
  • Parallel Wireless
  • QCT
  • Radisys
  • Rakuten
  • Reliance Jio
  • Samsung
  • SKT
  • SoftBank
  • Telecom Italia
  • Telefónica
  • Telenor
  • T-Mobile
  • Verizon
  • Vodafone
  • ZTE