Cover Image
市場調查報告書

行動網路邊界運算 (MEC) :技術,解決方案,及無線應用、內容的未來

Mobile Edge Computing (MEC): Technology, Solutions, and Future of Wireless Apps and Content

出版商 Mind Commerce 商品編碼 350826
出版日期 內容資訊 英文 71 Pages
商品交期: 最快1-2個工作天內
價格
Back to Top
行動網路邊界運算 (MEC) :技術,解決方案,及無線應用、內容的未來 Mobile Edge Computing (MEC): Technology, Solutions, and Future of Wireless Apps and Content
出版日期: 2016年01月29日 內容資訊: 英文 71 Pages
簡介

本報告提供行動網路邊界運算 (MEC) 的技術,架構和結構要素,生態系統,市場推動成長因素,應用,解決方案,及發展的課題相關調查分析,MEC產業的倡議,主要企業,及解決方案分析,市場評估與預測,及主要企業簡介等彙整,為您概述為以下內容。

第1章 簡介

  • 行動網路邊界運算 (MEC) 是什麼?
  • MEC的特徵
  • MEC的優點

第2章 MEC平台架構、技術

  • MEC平台架構、結構要素
    • MEC基礎設施
    • MEC應用程式平台
    • MEC經營管理組成架構
  • 邊際雲端MEC價值鏈
  • MEC技術、結構要素
    • 無線網路資訊服務
    • 流量卸載功能
    • 介面
    • 設定管理
    • 應用生命週期管理
    • VM營運、管理
    • 硬體設備虛擬化、基礎架構管理系統
    • 核心網路因素
    • 開放式規格功能
  • MEC技術推動者
    • 朝向行動雲端運算的行動計算
    • Cloudlets型行動雲端運算
    • 雲端用Cloudlets
    • Cloudlets封包雲端的開放式平台
    • 企業雲端的架構
    • AKANAI的Cloudlets解決方案
    • OpenNI的Cloudlets儲存組成架構
  • MEC發展範圍

第3章 MEC的生態系統、市場參與企業

  • MEC網路的生態系統
  • MEC網路結構、環境
  • MEC生態系統企業
    • 軟體 & ASP
    • OTT服務、內容提供商
    • 網路基礎設施、設備供應商
    • 行動網路業者 (MNO)

第4章 MEC市場促進要素

  • 雲端匯流的限制
  • IT與通訊網路的匯流
  • 基地台的演進
  • 電池單元聚合點
  • 虛擬化、雲端
  • 大容量伺服器
  • 網路的資料中心
  • 應用、服務的生態系統
  • 5G網路
  • 邊際雲端、數據傳送性
  • 接近雲端運算
  • 小型基地台MEC
  • 行動數據需求
  • FOG運算、低延遲
  • C-RAN及雲端RAN

第5章 MEC應用領域

  • 定位追蹤
  • 行動內容傳送
  • 內容再選路
  • 視訊分析
  • 內容最佳化
  • DNS緩存
  • 效能最佳化
  • 多網膜叢集
  • 擴張
  • 接近連接性
  • 企業連接性
  • 卸載
  • 物聯網
  • 關鍵通訊、城市安全

第6章 MEC發展的課題

  • 特定的運算、儲存資源
  • 可變容許量
  • 低的實體安全
  • 特定的投資
  • 網路層級的整合
  • 可攜帶性
  • 應用安全
  • 效能
  • 營運
  • 法律上的因素
  • 費用、收費

第7章 全球OEM硬體設備市場

  • MEC對垂直市場的影響的預測
    • 行動雲端內容、應用
    • 行動雲端、巨量資料分析
    • 行動雲端安全解決方案
    • 行動微資料中心解決方案
    • 行動AR應用
    • 行動定位服務 & 解決方案
    • 行動雲端資料庫 & 解決方案
    • 行動雲端主機 & 解決方案
    • 行動基礎設施 & 設備
    • IoT連接性、解決方案
  • MEC網路發展預測

第8章 IoT生態系統的主要企業

  • ETSI ISG 倡議 & 合作夥伴
  • SMALL CELL FORUM
  • SAGUNA
  • HUAWEI
  • NOKIA NETWORK
  • INTEL
  • JUNIPER NETWORK
  • PEERAPP
  • IBM
  • PARALLEL WIRELESS
  • INTEGRATED DEVICE TECHNOLOGY (IDT)
  • SPIDERCLOUD WIRELESS
  • ADVANTECH
  • VASONA NETWORK
  • ADLINK
  • EE

第9章 結論、建議

圖表

目錄

Mobile Edge Computing (MEC) represents cloud-computing capabilities and an IT service environment at the edge of the mobile network. The edge of the network includes base station infrastructure and data centers close to the radio network, which can extract network context from Radio Access Network (RAN) and process in a distributed manner.

MEC brings virtualized applications much closer to mobile users ensuring network flexibility, economy and scalability for improved user experience. It facilitates a service environment that allows seamless access experience and responsiveness for content, services, and applications. It provides mobile network operators with an opportunity to play a greater role in an emerging ecosystem as they can add value through optimized apps and content.

MEC promises to bridge the gap between IT and wireless communications

Supported by leading organizations such as ETSI ISG, IBM, Intel, Nokia Network, Huawei, NTT DoCoMo, Saguna, and Vodafone, MEC will be applied in a wide array of areas including content delivery, DNS caching, RAN optimization, offloading, IoT connectivity, distributed video, critical communications, and urban security. MEC is also anticipated to create a new ecosystem that will positively impact various vertical markets.

This research evaluates MEC technology, architecture and building clocks, ecosystem, market drivers, applications, solutions, and deployment challenges. The report also analyzes MEC industry initiatives, leading companies, and solutions. It also includes a market assessment and forecast to 2025. All purchases of Mind Commerce reports includes time with an expert analyst who will help you link key findings in the report to the business issues you're addressing. This needs to be used within three months of purchasing the report.

Target Audience:

  • Mobile Network Operators
  • API management companies
  • SDN and virtualization vendors
  • Telecom managed service providers
  • Wireless/mobile infrastructure providers
  • Software, Application, and Content Providers
  • RAN, Cloud Computing, and MEC R&D organizations
  • Cloud and Cloudlet infrastructure and service providers

Companies in Report:

  • ADLINK
  • Advantech
  • EE
  • ETSI
  • Huawei
  • IBM
  • Integrated Device Technology (IDT)
  • Intel
  • Juniper Network
  • Nokia Network
  • NTT DoCoMo
  • Parallel Wireless
  • PeerApp
  • Saguna
  • Small Cell Forum
  • SpiderCloud Wireless
  • Vasona Network
  • Vodafone

Table of Contents

1.0 INTRODUCTION

  • 1.1 WHAT IS MOBILE EDGE COMPUTING (MEC)?
  • 1.2 CHARACTERISTICS OF MEC
    • 1.2.1 PROCESSING AT THE EDGE
    • 1.2.2 LOW LATENCY NETWORK
    • 1.2.3 CONTEXT BASED SERVICE
    • 1.2.4 LOCATION SERVICE AND ANALYTICS
  • 1.3 BENEFITS OF MEC
    • 1.3.1 BUSINESS BENEFITS
    • 1.3.2 TECHNICAL BENEFITS
    • 1.3.3 MNO SPECIFIC BENEFIT

2.0 MEC PLATFORM ARCHITECTURE AND TECHNOLOGY

  • 2.1 MEC PLATFORM ARCHITECTURE AND BUILDING BLOCKS
    • 2.1.1 MEC INFRASTRUCTURE
    • 2.1.2 MEC APPLICATION PLATFORM
    • 2.1.3 MEC MANAGEMENT FRAMEWORK
  • 2.2 MEC VALUE CHAIN FOR EDGE CLOUD
  • 2.3 MEC TECHNOLOGY AND BUILDING BLOCKS
    • 2.3.1 RADIO NETWORK INFORMATION SERVICE
    • 2.3.2 TRAFFIC OFFLOAD FUNCTION
    • 2.3.3 INTERFACE
    • 2.3.4 CONFIGURATION MANAGEMENT
    • 2.3.5 APPLICATION LIFECYCLE MANAGEMENT
    • 2.3.6 VM OPERATIONS AND MANAGEMENT
    • 2.3.7 HARDWARE VIRTUALIZATION AND INFRASTRUCTURE MANAGEMENT SYSTEM
    • 2.3.8 CORE NETWORK ELEMENTS
    • 2.3.9 OPEN STANDARD FUNCTION
  • 2.4 MEC TECHNOLOGY ENABLER
    • 2.4.1 MOBILE COMPUTING TO MOBILE CLOUD COMPUTING
    • 2.4.2 CLOUDLETS BASED MOBILE CLOUD COMPUTING
    • 2.4.3 CLOUDLET TO CLOUD
    • 2.4.4 PACKETCLOUD OPEN PLATFORM FOR CLOUDLET
    • 2.4.5 ENTERPRISE CLOUD ARCHITECTURE
    • 2.4.6 AKAMAI CLOUDLET SOLUTION
    • 2.4.7 OPENI CLOUDLET STORAGE FRAMEWORK
  • 2.5 MEC DEPLOYMENT SCOPE

3.0 MEC ECOSYSTEM AND MARKET PLAYERS

  • 3.1 MEC NETWORK ECOSYSTEM
  • 3.2 MEC NETWORK STRUCTURE AND ENVIRONMENT
  • 3.3 MEC ECOSYSTEM PLAYERS
    • 3.3.1 SOFTWARE & ASPS
    • 3.3.2 OTT SERVICE AND CONTENT PROVIDERS
    • 3.3.3 NETWORK INFRASTRUCTURE AND EQUIPMENT PROVIDERS
    • 3.3.4 MOBILE NETWORK OPERATORS (MNOS)

4.0 MEC MARKET DRIVERS

  • 4.1 LIMITATION OF CLOUD CONVERGENCE
  • 4.2 IT AND TELECOM NETWORK CONVERGENCE
  • 4.3 BASE STATION EVOLUTION
  • 4.4 CELL AGGREGATION POINT
  • 4.5 VIRTUALIZATION AND CLOUD
  • 4.6 HIGH VOLUME SERVERS
  • 4.7 DATA CENTER TO NETWORK
  • 4.8 APPLICATION AND SERVICE ECOSYSTEM
  • 4.9 5G NETWORK
  • 4.10 EDGE CLOUD AND DATA TRANSFERABILITY
  • 4.11 PROXIMATE CLOUD COMPUTING
  • 4.12 FASTER CONTENT DELIVERY
  • 4.13 MEC FOR SMALL CELLS
  • 4.14 MOBILE DATA DEMAND
  • 4.15 FOG COMPUTING AND LOW LATENCY
  • 4.16 C-RAN AND CLOUD RAN

5.0 MEC APPLICATION AREAS

  • 5.1 LOCATION TRACKING
  • 5.2 MOBILE CONTENT DELIVERY
  • 5.3 CONTENT REROUTING
  • 5.4 VIDEO ANALYTICS
  • 5.5 CONTENT OPTIMIZATION
  • 5.6 DNS CACHING
  • 5.7 PERFORMANCE OPTIMIZATION
  • 5.8 MULTIPLE MESH CLUSTERING
  • 5.9 AUGMENTATION
  • 5.10 PROXIMITY CONNECTIVITY
  • 5.11 ENTERPRISE CONNECTIVITY
  • 5.12 OFFLOADING
  • 5.13 INTERNET OF THINGS
  • 5.14 CRITICAL COMMUNICATION AND URBAN SECURITY

6.0 MEC DEPLOYMENT CHALLENGES

  • 6.1 LIMITED COMPUTING AND STORAGE RESOURCES
  • 6.2 VARIABLE THROUGHPUT
  • 6.3 LOW PHYSICAL SECURITY
  • 6.4 LIMITED INVESTMENT
  • 6.5 INTEGRATION ON NETWORK LEVEL
  • 6.6 PORTABILITY
  • 6.7 APPLICATION SECURITY
  • 6.8 PERFORMANCE
  • 6.9 OPERATION
  • 6.10 LEGAL FACTORS
  • 6.11 PRICING AND BILLING

7.0 MOBILE EDGE COMPUTING (MEC) MARKET PROJECTION THRU 2025

  • 7.1 MEC IMPACT VERTICAL MARKET PROJECTION
    • 7.1.1 MOBILE CLOUD CONTENT & APPLICATION
    • 7.1.2 MOBILE CLOUD AND BIG DATA ANALYTICS
    • 7.1.3 MOBILE CLOUD SECURITY SOLUTION
    • 7.1.4 MOBILE MICRO DATA CENTER SOLUTION
    • 7.1.5 MOBILE AUGMENTED REALITY APPLICATION
    • 7.1.6 MOBILE LOCATION BASED SERVICE & SOLUTION
    • 7.1.7 MOBILE CLOUD DATABASE & SOLUTION
    • 7.1.8 MOBILE CLOUD SERVER & SOLUTION
    • 7.1.9 MOBILE INFRASTRUCTURE & EQUIPMENT
    • 7.1.10 IOT CONNECTIVITY AND SOLUTIONS
  • 7.2 MEC NETWORK ADOPTION PROJECTION THROUGH 2020

8.0 MEC INDUSTRY INITIATIVE AND SOLUTION PROVIDERS

  • 8.1 ETSI ISG INITIATIVE AND PARTNERS
  • 8.2 SMALL CELL FORUM
  • 8.3 SAGUNA
  • 8.4 HUAWEI
  • 8.5 NOKIA NETWORK
  • 8.6 INTEL
  • 8.7 JUNIPER NETWORK
  • 8.8 PEERAPP
  • 8.9 IBM
  • 8.10 PARALLEL WIRELESS
  • 8.11 INTEGRATED DEVICE TECHNOLOGY (IDT)
  • 8.12 SPIDERCLOUD WIRELESS
  • 8.13 ADVANTECH
  • 8.14 VASONA NETWORK
  • 8.15 ADLINK
  • 8.16 EE

9.0 CONCLUSIONS AND RECOMMENDATIONS

  • 9.1 RECOMMENDED DEPLOYMENT SCENARIO
  • 9.2 KEY TAKEAWAY FOR MOBILE OPERATORS AND OVERALL INDUSTRY

Figures

  • Figure 1: MEC Platform Architecture and Building Blocks
  • Figure 2: MEC Value Chain Diagram for Edge Cloud
  • Figure 3: Extreme Outdoor Server: MEC Platform Example
  • Figure 4: Mobile Cloud Computing and Cloudlet Mobile Cloud Computing
  • Figure 5: Cloudlet Based PacketCloud Framework
  • Figure 6: Cloudlet Based Enterprise Cloud Architecture
  • Figure 7: Mobile Edge Computing (MEC) Network Diagram
  • Figure 8 MEC Network Structure and Environment
  • Figure 9: MEC Market Drivers
  • Figure 10: Fog Computing Structure
  • Figure 11: Mobile Network Migration Pattern: from C-RAN to MEC
  • Figure 12: Location Tracking Model on MEC Network
  • Figure 13: Content Rerouting Structure
  • Figure 14: MEC Video Analytics based on Intelligent System
  • Figure 15: MEC Content Optimization Diagram
  • Figure 16: MEC Content and DNS Caching Diagram
  • Figure 17: MEC Application Aware Performance Optimization
  • Figure 18: MEC Mesh Clustering Diagram
  • Figure 19: MEC Augmented Reality Based Content Delivery
  • Figure 20: MEC Proximity Connectivity for Vehicle
  • Figure 21: MEC Enterprise Connectivity Framework
  • Figure 22: IoT Gateway Service on MEC Server
  • Figure 23: Saguna MEC Test Results
  • Figure 24: MEC Server Deployment Scenarios

Tables

  • Table 1: MEC Forecast by Market Verticals 2020 - 2025
Back to Top