衛星通信於智慧電網的使用：因應變電所的自動化・供電自動化・AMI後置網路的VSAT及BGAN衛星技術

智慧電網從先進地區和高人口密度的地區，擴大範圍到其他地區，由於技術優勢和價格的大幅下降等，以做為可執行且具吸引力通訊手段的衛星通信技術而受到關注。

本報告，調查分析衛星通信使用於智慧電網的狀況，彙整智慧電網的通信架構、衛星通信的導入重點、衛星通信使用的優點・缺點、衛星通信機器的收益及出貨台數的變化與預測（∼2020年：技術區分・裝置類型・地區別）、主要業者的檔案資料等，由下列摘要形式闡述。

第1章 報告摘要

第2章 市場課題

• 智慧電網
  • 智慧電網通信的促進因子
  • 智慧電網的各種用途
• 衛星通信產業與智慧電網
  • 衛星產業的概要･背景
• 衛星產業與智慧電網
  • 利用衛星通信的智慧電網的新用途
    • AMI後置網路
    • 變電所的自動化
      • 個案研究：Rio Grande Electric Cooperative
    • 供電的自動化
    • 網路的冗長
    • 行動勞動力
    • 遠距的語音&寬頻連線
  • 智慧電網上衛星通信使用的優點
    • 無所不在的全面覆蓋
    • 信賴性
    • 擴張性
    • 迅速的導入・可攜性
    • 相較地面廣播無線，規格的舊式化速度慢
  • 智慧電網上衛星通信使用的缺點
    • 延遲
    • 互用性
    • 雨致衰減
    • 頻寬效率
    • 安全上的擔憂
    • 成本
      • NPV（Net Present Value）分析
  • 替代通訊網路的可利用性：全球展望
    • 北美
    • 拉丁美洲
    • 歐洲
    • 亞太地區
    • 中東・非洲
    • 澳洲・紐西蘭
  • 主要國家的人口密度
  • 政府・法律規範上的課題・頻寬授權
  • 衛星頻寬的法律規範

第3章 技術課題

• 智慧電網通信的要件
  • 智慧電網通信的架構
  • 架構模型事例
  • 智慧電網通信規格
  • 智慧電網網路技術：有線
    • 專用線路與寬頻
    • 私人光纖
    • 窄頻電力線通訊
    • 電力線寬頻（BPL）
  • 智慧電網網路技術：地面廣播無線
    • 私人RF網狀網路
    • 私人點對點微波無線網路
    • 私人RF點對多點系統
    • 蜂巢式網路
    • 衛星通信
• 智慧電網的用途與衛星通信
  • 衛星軌道
    • 靜止軌道（GEO）
    • 低軌道（LEO）
    • 中軌道（MEO）
    • GEO vs MEO vs LEO
  • VSAT vs BGAN技術
    • VSAT（Very Small Aperture Terminal）
    • BGAN（Broadband Global Area Network）
    • 智慧電網的VSAT vs BGAN
  • 固定 vs 行動衛星服務
  • 衛星頻寬
    • L頻
    • S頻
    • C頻
    • Ku頻
    • Ka頻

第4章 主要企業

• 簡介
• 衛星服務供應商
• 機器・解決方案供應商
• 智慧電網展開上使用衛星通信的公用事業業者
• 產業團體

第5章 市場預測

• 全球的衛星型智慧電網通信市場：預測

第6章 企業要覽

第7章 用語

第8章 目次

第9章 圖表

第10章 調查範圍・情報來源・調查手法・註記

圖表

Abstract

Over the past several years, smart grid initiatives around the world have focused largely on the deployment of smart meters. Increasingly, however, utilities worldwide are beginning to look at applications like substation automation, distribution automation, advanced metering infrastructure (AMI) backhaul, remote monitoring, workforce mobility, and communications network redundancy. These applications are expected to bring dramatically improved operational efficiency to utilities as well as reliability to the grid. While substation and distribution sites in urban and suburban markets can be readily connected to the grid via existing terrestrial communications networks, in order to create a fully-automated, reliable grid, rural and remote sites must also be accommodated and backup systems need to be in place for critical sites.

Thanks to a number of advances in both technical characteristics - latency, in particular - as well as a dramatic declines in pricing for both the equipment as well as monthly service, satellite communications is emerging as a viable and attractive means of connectivity for many smart grid applications, particularly as smart grid efforts move beyond developed, densely populated regions. Numerous satellite service providers and equipment manufacturers are now aggressively pursuing the utility market, a trend which should further the reduction in satellite service and equipment pricing even as bandwidth and connection speeds improve.

This Pike Research report examines the economics and dynamics of satellite communications as it relates to smart grid deployments. The study provides an in-depth examination of market drivers, technology issues and standards, and the competitive landscape for smart grid networking. Detailed market forecasts are included for unit shipments and infrastructure and satellite service revenue, segmented by technology, application, and world region, through 2020.

Key Questions Addressed:

• How large is the market opportunity, in terms of unit shipments and revenue, for each category and application of smart grid satellite communications equipment?
• How large is the worldwide opportunity for satellite service providers, and which regions show the most potential?
• Who are the key players in the satellite services and infrastructure arena?
• Where do satellite communications stand out as a promising smart grid connectivity solution?
• How do the costs associated with satellite communications compare with terrestrial networks?

Who needs this report?

• Satellite service providers
• Satellite equipment vendors
• Systems integrators and consultants
• Utilities
• Government agencies
• Industry associations
• Investor community

Table of Contents

1. Executive Summary

• 1.1 The State of the Smart Grid
• 1.2 The Scope of this Report

2. Market Issues

• 2.1 The Smart Grid
  • 2.1.1 Smart Grid Communications Drivers
  • 2.1.2 Smart Grid Applications
• 2.2 The Satellite Communications Industry and the Smart Grid
  • 2.2.1 Satellite Industry Overview and History
• 2.3 Satellite Industry and Smart Grid
  • 2.3.1 Emerging Smart Grid Applications Using Satellite Communications
    • 2.3.1.1 AMI Backhaul
    • 2.3.1.2 Substation Automation
      • 2.3.1.2.1. Case Study: Rio Grande Electric Cooperative
    • 2.3.1.3 Distribution Automation
    • 2.3.1.4 Network Redundancy
    • 2.3.1.5 Mobile Workforce
    • 2.3.1.6 Voice and Broadband Connection for Remote Sites
  • 2.3.2 Advantages to Satellite Communications in Smart Grid Applications
    • 2.3.2.1 Ubiquitous Coverage
    • 2.3.2.2 Reliability
    • 2.3.2.3 Scalability
    • 2.3.2.4 Rapid Deployment and Portability
    • 2.3.2.5 Slower Obsolescence Compared with Terrestrial Wireless Standards
  • 2.3.3 Perceived Disadvantages to Satellite Communications in Smart Grid Applications
    • 2.3.3.1 Latency
    • 2.3.3.2 Interoperability
    • 2.3.3.3 Rain Fade
    • 2.3.3.4 Bandwidth Efficiency
    • 2.3.3.5 Security Concerns
    • 2.3.3.6 Costs
    • 2.3.3.6.1. Net Present Value Analysis
  • 2.3.4 Availability of Alternative Communications Networks: A Global Perspective
    • 2.3.4.1 North America
    • 2.3.4.2 Latin America
    • 2.3.4.3 Europe
    • 2.3.4.4 Asia Pacific
    • 2.3.4.5 Middle East & Africa
    • 2.3.4.6 Australia and New Zealand
  • 2.3.5 Population Density for Major Countries Worldwide
  • 2.3.6 Government and Regulatory Issues and Spectrum Licensing
  • 2.3.7 Regulation of Satellite Spectrum

3. Technology Issues

• 3.1 Smart Grid Communications Requirements
  • 3.1.1 Smart Grid Communications Architecture
  • 3.1.2 An Architectural Model Example
  • 3.1.3 Smart Grid Communications Standards
  • 3.1.4 Smart Grid Networking Technologies - Wired
    • 3.1.4.1 Leased Lines and Broadband
    • 3.1.4.2 Private Fiber
    • 3.1.4.3 Narrowband Power Line Communications
    • 3.1.4.4 Broadband over Power Line
  • 3.1.5 Smart Grid Networking Technologies: Terrestrial Wireless
    • 3.1.5.1 Private RF Mesh Networks
    • 3.1.5.2 Private Point-to-Point Microwave Radio Networks
    • 3.1.5.3 Private RF Point-to-Multipoint Systems
    • 3.1.5.4 Cellular Networks
    • 3.1.5.5 Satellite Communications
• 3.2 Smart Grid Applications and Satellite Communications
  • 3.2.1 Satellite Orbits
    • 3.2.1.1 Geosynchronous Orbit
    • 3.2.1.2 Low Earth Orbit
    • 3.2.1.3 Medium Earth Orbit
    • 3.2.1.4 GEO versus MEO versus LEO
  • 3.2.2 VSAT versus BGAN Technologies
    • 3.2.2.1 Very Small Aperture Terminal
    • 3.2.2.2 Broadband Global Area Network
    • 3.2.2.3 VSAT versus BGAN in the Smart Grid
  • 3.2.3 Fixed versus Mobile Satellite Services
  • 3.2.4 Satellite Spectrum Bands
    • 3.2.4.1 L-band
    • 3.2.4.2 S-band
    • 3.2.4.3 C-band
    • 3.2.4.4 Ku-band
    • 3.2.4.5 Ka-band

4. Key Industry Players

• 4.1 Introduction
• 4.2 Satellite Service Providers
  • 4.2.1 Globalstar
  • 4.2.2 Inmarsat
  • 4.2.3 Infosat Communications LP
  • 4.2.4 SES/ASTRA2Connect
• 4.3 Equipment and Solutions Vendors
  • 4.3.1 Cisco
  • 4.3.2 Hughes Network Systems, LLC
  • 4.3.3 iDirect
  • 4.3.4 Logica
  • 4.3.5 Schneider Electric
  • 4.3.6 Silver Spring Networks
  • 4.3.7 Spacenet, Inc.
• 4.4 Utilities Using Satellite Communications in Smart Grid Deployments
  • 4.4.1 Pacific Gas & Electric
  • 4.4.2 Southern California Edison
• 4.5 Industry Associations
  • 4.5.1 Satellite Industry Association

5. Market Forecasts

• 5.1 Worldwide Satellite-based Smart Grid Communications Forecast

6. Company Directory

7. Acronym and Abbreviation List

8. Table of Contents

9. Table of Charts and Figures

10. Scope of Study, Sources and Methodology, Notes

List of Charts and Figures

• Total Smart Grid Satellite Services and Equipment Revenue, World Markets: 2011-2020
• Satellite-based Smart Grid Unit Shipments by Application, World Markets: 2011-2020
• Satellite-based Smart Grid Device Revenue Forecast by Region, World Markets: 2011-2020
• Satellite Service Provider Smart Grid Revenue by Region, World Markets: 2011-2020
• Satellite Industry Revenue by Segment, World Markets: 2006-2011
• Satellite-based Communications Node Unit Shipments by Application, World Markets: 2011-2020
• Satellite-based Communications Nodes by Smart Grid Applications, World Markets: 2014
• Satellite-based Communications Node Unit Shipments by Device Type, World Markets: 2011-2020
• Satellite-based Communications Node Revenue by Device Type, World Markets: 2011-2020
• VSAT-based Communications Node Unit Shipments by Device Type, World Markets: 2011-2020
• BGAN-based Communications Node Unit Shipments by Device Type, World Markets: 2011-2020
• VSAT-based Communications Node Revenue by Device Type, World Markets: 2011-2020
• BGAN-based Communications Node Revenue by Device Type, World Markets: 2011-2020
• Satellite-based Communications Node Revenue by Region, World Markets: 2011-2020
• Satellite-based Communications Node Revenue by Device Type, North America: 2011-2020
• Satellite-based Communications Node Revenue by Device Type, United States: 2011-2020
• Satellite-based Communications Node Revenue by Device Type, Canada: 2011-2020
• Satellite-based Communications Node Revenue by Device Type, Latin America: 2011-2020
• Satellite-based Communications Node Revenue by Device Type, Europe: 2011-2020
• Satellite-based Communications Node Revenue by Device Type, Asia Pacific: 2011-2020
• Satellite-based Communications Node Revenue by Device Type, Middle East & Africa: 2011-2020
• Satellite Service Provider Revenue by Region, World Markets: 2011-2020
• Total Smart Grid Satellite Services and Equipment Revenue, World Markets: 2011-2020
• Simplified Smart Grid Communications Architecture
• The Satellite Network in Context
• Strength of Wireless Communications Signals: North and Central America
• Strength of Wireless Communications Signals: Northern South America
• Strength of Wireless Communications Signals: Southern South America
• Strength of Wireless Communications Signals: Eastern and Western Europe
• Strength of Wireless Communications Signals: Asia Pacific
• Strength of Wireless Communications Signals: Middle East and Northern Africa
• Strength of Wireless Communications Signals: Southern Africa
• Strength of Wireless Communications Signals: Australia and New Zealand
• Smart Grid Networking Architectural Model
• NIST Smart Grid Framework 2.0
• Mesh and Star Network Configurations
• List of Tables
• Satellite Frequencies and Selected Services
• Net Present Value Analysis: Satellite Communications in the Smart Grid
• World's Largest Countries Ranked by Population Density (Lowest to Highest)
• Satellite Industry Revenue by Segment, World Markets: 2006-2011
• Communications Requirement Descriptions
• Smart Grid Communications Requirements Summary
• Smart Grid Networking Devices
• Satellite Frequencies and Selected Service Providers
• Satellite-based Communications Node Unit Shipments by Application, World Markets: 2011-2020
• Satellite-based Communications Node Unit Shipments by Device Type, World Markets: 2011-2020
• VSAT-based Communications Node Unit Shipments by Device Type, World Markets: 2011-2020
• BGAN-based Communications Node Unit Shipments by Device Type, World Markets: 2011-2020
• Satellite-based Communications Node Average Selling Price by Device Type, World Markets: 2011-2020
• VSAT-based Communications Node Average Selling Price by Device Type, World Markets: 2011-2020
• BGAN-based Communications Node Average Selling Price by Device Type, World Markets: 2011-2020
• Satellite-based Communications Node Revenue by Device Type, World Markets: 2011-2020
• VSAT-based Communications Node Revenue by Device Type, World Markets: 2011-2020
• BGAN-based Communications Node Revenue by Device Type, World Markets: 2011-2020
• Satellite-based Communications Node Unit Shipments by Application, North America: 2011-2020
• Satellite-based Communications Node Unit Shipments by Device Type, North America: 2011-2020
• VSAT-based Communications Node Unit Shipments by Device Type, North America: 2011-2020
• BGAN-based Communications Node Unit Shipments by Device Type, North America: 2011-2020
• Satellite-based Communications Node Revenue by Device Type, North America: 2011-2020
• VSAT-based Communications Node Revenue by Device Type, North America: 2011-2020
• BGAN-based Communications Node Revenue by Device Type, North America: 2011-2020
• Satellite-based Communications Node Unit Shipments by Application, United States: 2011-2020
• Satellite-based Communications Node Unit Shipments by Device Type, United States: 2011-2020
• VSAT-based Communications Node Unit Shipments by Device Type, United States: 2011-2020
• BGAN-based Communications Node Unit Shipments by Device Type, United States: 2011-2020
• Satellite-based Communications Node Revenue by Device Type, United States: 2011-2020
• VSAT-based Communications Node Revenue by Device Type, United States: 2011-2020
• BGAN-based Communications Node Revenue by Device Type, United States: 2011-2020
• Satellite-based Communications Node Unit Shipments by Application, Canada: 2011-2020
• Satellite-based Communications Node Unit Shipments by Device Type, Canada: 2011-2020
• VSAT-based Communications Node Unit Shipments by Device Type, Canada: 2011-2020
• BGAN-based Communications Node Unit Shipments by Device Type, Canada: 2011-2020
• Satellite-based Communications Node Revenue by Device Type, Canada: 2011-2020
• VSAT-based Communications Node Revenue by Device Type, Canada: 2011-2020
• BGAN-based Communications Node Revenue by Device Type, Canada: 2011-2020
• Satellite-based Communications Node Unit Shipments by Application, Latin America: 2011-2020
• Satellite-based Communications Node Unit Shipments by Device Type, Latin America: 2011-2020
• VSAT-based Communications Node Unit Shipments by Device Type, Latin America: 2011-2020
• BGAN-based Communications Node Unit Shipments by Device Type, Latin America: 2011-2020
• Satellite-based Communications Node Revenue by Device Type, Latin America: 2011-2020
• VSAT-based Communications Node Revenue by Device Type, Latin America: 2011-2020
• BGAN-based Communications Node Revenue by Device Type, Latin America: 2011-2020
• Satellite-based Communication Node Unit Shipments by Application, Europe: 2011-2020
• Satellite-based Communications Node Unit Shipments by Device Type, Europe: 2011-2020
• VSAT-based Communications Node Unit Shipments by Device Type, Europe: 2011-2020
• BGAN-based Communications Node Unit Shipments by Device Type, Europe: 2011-2020
• Satellite-based Communications Node Revenue by Device Type, Europe: 2011-2020
• VSAT-based Communications Node Revenue by Device Type, Europe: 2011-2020
• BGAN-based Communications Node Revenue by Device Type, Europe: 2011-2020
• Satellite-based Communications Node Unit Shipments by Application, Asia Pacific: 2011-2020
• Satellite-based Communications Node Unit Shipments by Device Type, Asia Pacific: 2011-2020
• VSAT-based Communications Node Unit Shipments by Device Type, Asia Pacific: 2011-2020
• BGAN-based Communications Node Unit Shipments by Device Type, Asia Pacific: 2011-2020
• Satellite-based Communications Node Revenue by Device Type, Asia Pacific: 2011-2020
• VSAT-based Communications Node Revenue by Device Type, Asia Pacific: 2011-2020
• BGAN-based Communications Node Revenue by Device Type, Asia Pacific: 2011-2020
• Satellite-based Communications Node Unit Shipments by Application, Middle East & Africa: 2011-2020
• Satellite-based Communications Node Unit Shipments by Device Type, Middle East & Africa: 2011-2020
• VSAT-based Communications Node Unit Shipments by Device Type, Middle East & Africa: 2011-2020
• BGAN-based Communications Node Unit Shipments by Device Type, Middle East & Africa: 2011-2020
• Satellite-based Communications Node Revenue by Device Type, Middle East & Africa: 2011-2020
• VSAT-based Communications Node Revenue by Device Type, Middle East & Africa: 2011-2020
• BGAN-based Communications Node Revenue by Device Type, Middle East & Africa: 2011-2020
• Mobile Vehicle Satellite Equipment Unit Shipments by Region: 2011-2020
• Mobile Vehicle Satellite Equipment Revenue by Region: 2011-2020
• Satellite-enabled Mobile Vehicle Service Revenue by Region: 2011-2020
• Total Satellite Service Provider Smart Grid Revenue by Region, World Markets: 2011-2020