NEW YORK, May 28, 2012 /PRNewswire/ —
Reportlinker.com announces that a new market research report is available in its catalogue:
http://www.reportlinker.com/p0249450/Smart-Grid-Networking-and-Communications.html#utm_source=prnewswireutm_medium=prutm_campaign=Telecommunication_Services
Public and Private, Wired and Wireless Networks for Smart Meters, Distribution Automation, Substation Automation, and Home Area Networks
The development of the smart grid up to this point has largely focused on highly visible, consumer-facing deployments of smart meters. While this has powered the market over the past few years, both in terms of revenue and visibility, much of the smart meter installation activity is projected to slow down, due to factors including the completion of large utility deployments, a reduction in federal stimulus funding, and the utilities’ desire to focus on projects that can more quickly deliver a positive return on investment. As such, the communications networks and equipment used to construct them are shifting from the high unit volume and less expensive nodes used in smart meters, to somewhat lower unit volume, yet higher value, networking equipment and communications gear found in substation automation projects, distribution network upgrades, and other projects that focus on delivering measurable grid efficiency improvements, enhanced security and reliability, and a path to a fully integrated grid-wide communications system. While smart metering initiatives will continue to drive the market over the next 2 to 3 years, investment in advanced metering infrastructure (AMI networks will be reduced starting in the second half of the decade, as utilities focus on high-return grid enhancement projects that provide important reliability, security, and efficiency gains, with less need for the challenging process of customer education. This Pike Research report analyzes the current market dynamics and future opportunities for public and private, wired and wireless networks for a range of smart grid applications including smart meters, distribution automation, substation automation, and home area networks. 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 revenue, segmented by technology, application, and world region, through 2020.
Key Questions Addressed:
-What is the market opportunity, in terms of unit shipments and revenue, for each category and application of smart grid communication equipment?-How are various smart grid projects using advanced communication systems in different regions around the world?-What is the state of standards development in North America, Europe, and Asia?-How viable are public cellular networks as an alternative to private wireless systems?-What are the strategies of the utility industry with regard to key security issues?
Who needs this report?
Smart grid hardware and software companiesNetworking and telecommunications equipment vendorsTelecommunications service providersSystems integrators and consultantsElectric, water, and gas utilitiesGovernment agenciesInvestor community
1. Executive Summary
1.1 Introduction to Smart Grid Communications
1.2 Smart Grid Communications Forecast Overview
2. Market Issues2.1 The Smart Grid2.2 Market Drivers2.2.1 Utility Operating Cost Reduction2.2.2 Grid Reliability and Security2.2.3 Energy Efficiency and Management2.2.4 Renewable and Distributed Generation2.2. 5 Electric Vehicle-to-Grid Infrastructure2.3 Market Opportunity and Environment2.3.1 Market Environment and Business Structures2.3.2 Government and Regulatory Environment2.3.3 Regional Smart Grid Activities and Updates2.3.3.1 North America2.3.3.1.1. United States2.3.3.1.2. Canada2.3.3.2 Latin America2.3.3.2.1. Brazil2.3.3.2.2. Mexico2.3.3.2.3. Other Latin American Countries2.3.3.3 Europe2.3.3.3.1. Western Europe2.3.3.3.2. Italy2.3.3.3.3. Sweden2.3.3.3.4. United Kingdom2.3.3.3.5. France2.3.3.3.6. Eastern Europe2.3.3.4 Asia2.3.3.4.1. Japan2.3.3.4.2. South Korea2.3.3.4.3. China2.3.3.4.4. Other Southeast Asian Countries2.3.3.4.5. Australia2.3.3.4.6. India2.3.3.5 Middle East Africa2.3.3.5.1. Middle East2.3.3.5.2. Africa2.4 Market Challenges and Risks2.4.1 Interoperability and Standards2.4.2 Security2.4.2.1 Increasing Worries about Protecting Critical Assets2.4.2.2 Cyber Security2.4.3 Legal Challenges and Public Criticism2.4.4 Declining Levels of Federal and Local Funding2.4.5 Market Distortions
3. Smart Grid Applications and Networking Requirements
3.1 Introduction
3. 2 Electrical Grid Overview
3.3 Smart Metering and AMI
3.3.1 Why Smart Meters?
3.3.1.1 Smart Meter Utility Operating Benefits
3.3.1.2 Consumer Energy Use Reduction Benefits
3.3.1.3 Peak Demand Shifting
3.3.1.4 Criticism of Smart Meters
3.3.1.5 Net Metering, Local Generation, and Electric Vehicle Support
3.3.2 Advanced Metering Infrastructure Architecture
3.3.3 Home Area Network Technology
3.3.4 Smart Metering Communications Requirements
3.4 Substation Automation
3.4. 1 SCADA Systems
3.4.2 Physical Security
3.4.3 Workforce Communications
3.4.4 Substation Automation Communications Requirements
3.5 Distribution Automation
3.5.1 Basic Automation
3.5.2 Distribution Automation Communications Requirement
3.6 Enterprise Voice and Data Communications
3.7 Derivative Smart Grid Applications
3.7.1 Outage and Fault Management
3.7.2 Asset Management and Monitoring
3.7.3 Distributed and Alternative Generation Integration
3.7. 4 Demand Response and Dynamic Pricing
3.7.5 Contingency and Capacity Planning
3.7.6 Workforce Automation
4. Smart Grid Communications Architecture and Standards4.1 The Smart Grid Architecture Challenge4.1.1 Networking versus Communications4.1.2 A Sample Architecture4.2 Smart Grid Networking Standards4.2.1 The Internet Protocol Suite and the Smart Grid4.2.2 SCADA Standards4.2.2.1 Distributed Network Protocol4.2.2.2 IEC 618504.3 Emerging North American Smart Grid Standards4.3.1 NIST Release 2.04.3. 2 SGIP’s First Six Standards for the Catalog of Standard4.4 IEEE 2030 Guides4.4.1 Emerging European Union Smart Grid Standards4.4.1.1 European OPEN Meter Project4.4.1.2 Utility-Driven Standardization4.4.2 Asian Smart Grid Standards4.4.2.1 China4.4.2.2 South Korea4.4.2.3 Japan4.4.3 International Standards Cooperation4.5 Challenges with Standards Development4.6 Smart Grid Communications Security
5. Smart Grid Networking Technologies
5.1 Private vs. Public Networks
5.2 Public Wired Technologies
5. 3 Public Wireless Technologies
5.3.1 2G/3G Cellular
5.3.2 Market Environment and Business Structure
5.3.3 U.S. Wireless Adoption Issues
5.3.4 Technology Challenges
5.3.4.1 Availability and Reliability
5.3.4.2 Latency
5.3.4.3 Interoperability
5.3.5 Security Concerns
5.3.6 4G Cellular
5.3.7 Other Public Wireless Technologies
5.4 Private Wired Technologies
5.4.1 Fiber Optic Communications
5.4.2 Dedicated Copper Communications
5.4. 3 Power Line Communications
5.4.3.1 Low Speed Power Line Communications
5.4.3.2 Narrowband Power Line Carrier
5.4.3.3 Broadband-over-Power Line
5.4.3.4 In-Home Power Line Carrier
5.4.3.4.1. HomePlug
5.4.3.4.2. HomeGrid/ITU G.hn
5.4.3.4.3. Echelon LonWorks
5.5 Private Wireless Technologies
5.5.1 Proprietary RF Mesh
5.5.1.1 Physical and Link Layer Protocols
5.5.1.2 Network Layer Protocols
5.5.1.3 Performance Characteristics
5.5.1.4 RF Mesh Vendor Examples
5.5.1. 5 Home-Oriented Proprietary RF Mesh Technologies
5.5.2 IEEE 802.15.4 Standards
5.5.2.1 ZigBee
5.5.2.1.1. ZigBee Smart Energy Profile
5.5.2.1.2. ZigBee Evolution
5.5.2.1.3. Migration Issues
5.5.2.2 IEEE 802.15.4g (SUN
5.5.2.3 Wireless M-Bus
5.5.3 IEEE 802.11 Metro Wi-Fi
5.5.4 Microwave Point-to-Point Links
5.5.5 Proprietary Point-to-Multipoint Communications
5.5.6 WiMAX and Private LTE
5.5.7 Satellite Communications
5.5.8 Summary Comparisons
6. Key Industry Players6.1 Introduction6.2 Selected Utility Profiles6.2.1 American Electric Power6.2.2 Austin Energy6.2.3 Avista Corporation6.2.4 CenterPoint Energy6.2.5 Consumers Energy6.2.6 Consolidated Edison, Inc.6.2.7 Duke Energy Corporation6.2.8 EDF Group6.2.9 Glendale Water Power6.2.10 Oklahoma Gas and Electric Company6.2.11 Pacific Gas Electric6.2.12 PECO Energy Company6.2.13 Progress Energy6.2.14 Salt River Project6.2.15 San Diego Gas Electric6.2.16 Scottish and Southern Energy6.2.17 Southern California Edison6.2. 18 Texas New Mexico Power6.2.19 Xcel Energy6.3 Grid Infrastructure Vendors6.3.1 ABB Group6.3.2 Alcatel-Lucent6.3.3 Cooper Power Systems6.3.4 GE Energy6.3.5 SC Electric Company6.3.6 Schweitzer Engineering Laboratories6.3.7 Siemens Energy6.4 Smart Meter Vendors6.4.1 Echelon Corporation6.4.2 Elster Group6.4.3 Holley Metering Ltd.6.4.4 Iskraemeco6.4.5 Itron, Inc.6.4.6 Landis+Gyr6.4.7 Sensus6.4.8 SmartSynch, Inc.6.5 Networking and Software Systems Vendors6.5.1 Aclara (ESCO Technologies6.5.2 ADTRAN6.5.3 Ambient Corp.6.5. 4 ATT6.5.5 BPL Global Ltd.6.5.6 Cisco Systems6.5.7 CURRENT Group, LLC6.5.8 ECI Telecom6.5.9 FreeWave Technologies6.5.10 Grid Net6.5.11 iDirect, Inc.6.5.12 Nokia Siemens Networks6.5.13 On-Ramp Wireless, Inc.6.5.14 PayGo Electric6.5.15 RuggedCom Inc.6.5.16 Silver Spring Networks6.5.17 Tendril6.5.18 Trilliant Inc.6.5.19 Tropos Networks Inc.6.5.20 Verizon Wireless6.6 Semiconductors and Components6.6.1 Certicom Corp.6.6.2 Digi International Inc.6.6.3 Ember Corporation6.6.4 NightHawk6.6.5 Sierra Wireless6.6.6 SkyCross6.6. 7 Texas Instruments
7. Market Forecasts
7.1 Worldwide Smart Grid Communications Forecast Methodology
7.1.1 Worldwide Forecast by Device Type
7.1.2 Worldwide Forecast by Technology
7.1.3 Worldwide Forecast by Region
7.2 North American Smart Grid Communications Forecast
7.3 Latin American Smart Grid Communications Forecast
7.4 European Smart Grid Communications Forecast
7.5 Asia Pacific Smart Grid Communications Forecast
7.6 Middle Eastern and African Smart Grid Communications Forecast
7. 7 Communications Device Forecast Risks
8. Company Directory
9. Acronym and Abbreviation List
10. Table of Contents
11. Table of Charts and Figures
12. Scope of Study, Sources and Methodology, Notes
List of Charts and Figures
Communications Node Unit Shipments by Device Type, World Markets: 2011-2020Communications Node Revenue by Region, World Markets: 2011-2020Communications Node Segmentation by Technology, World Markets: 2011-2020Communications Node Unit Shipments by Application, World Markets: 2011-2020Communications Nodes by Smart Grid Application, World Markets: 2014Communications Node Unit Shipments by Device Type, World Markets: 2011-2020Communications Node Revenue by Device Type, World Markets: 2011-2020Communications Node Segmentation by Technology, World Markets: 2011-2020Communications Node Revenue by Region, World Markets: 2011-2020Communications Node Revenue by Device Type, North America: 2011-20200Communications Node Revenue by Device Type, United States: 2011-2020Communications Node Revenue by Device Type, Canada: 2011-2020Communications Node Revenue by Device Type, Latin America: 2011-2020Communications Node Revenue by Device Type, Europe: 2011-2020Communications Node Revenue by Device Type, Asia Pacific: 2011-2020Communications Node Revenue by Device Type, Middle East Africa: 2011-2020Simplified Smart Grid Communications ArchitectureSimplified Grid Transmission and Distribution SystemTypical Smart Meter Network ArchitectureSCADA System General LayoutExamples of Distribution Feeder DevicesSmart Grid Networking Architectural ModelExample IPv6 networking stack for Smart Grid Field Area NetworksOverview of IEC 61850 Functionality and Associated Communication ProfilesNIST Conceptual Reference Diagram for Smart Grid Information NetworksOPEN Meter Project ScopeExample of a SONET/SDH Application in a Utility NetworkMesh Network ConfigurationsMunicipal Wi-Fi Architecture for a Smart Grid DeploymentStar Network ConfigurationExample of a WiMAX Smart Grid ApplicationGeneral Comparison of Performance vs. Costs
List of Tables
Communications Requirement DescriptionsSmart Metering NAN, HAN, and AMI-WAN Communications RequirementsSubstation Automation Communications RequirementsDistribution Automation Communications RequirementsSmart Grid Networking DevicesStandards Identified by NIST in Revision 2. 0 of Framework DocumentCategories of Power Line Communications for NANsExamples of RF Mesh NAN SystemsRelative Comparison of Smart Grid CommunicationsVendor TaxonomyForecasted Communications TechnologiesCommunications Node Unit Shipments by Application, World Markets: 2009-2020Communications Node Unit Shipments by Device Type, World Markets: 2009-2020Communications Node Average Selling Price by Device Type, World Markets: 2009-2020Communications Node Revenue by Device Type, World Markets: 2009-2020AMI-WAN Node Unit Shipments by Technology, World Markets: 2009-2020HAN Node Unit Shipments by Technology, World Markets: 2009-2020AMI-NAN Node Unit Shipments by Technology, World Markets: 2009-2020Communications Node Unit Shipments by Application, Canada: 2009-2020Communications Node Unit Shipments by Device Type, Canada: 2009-2020Communications Node Revenue, by Device Type, Canada: 2009-2020Communications Node Unit Shipments, by Application, Latin America: 2009-2020Communications Node Unit Shipments, by Device Type, Latin America: 2009-2020Communications Node Average Selling Price, by Device Type, Latin America: 2009-2020Communications Node Revenue, by Device Type, Latin America: 2009-2020HAN Node Unit Shipments, by Technology, Latin America: 2009-2020AMI-NAN Node Unit Shipments, by Technology, Latin America: 2009-2020AMI-WAN Node Unit Shipments, by Technology, Latin America: 2009-2020DA-WAN Node Unit Shipments, by Technology, Latin America: 2009-2020SA-WAN Node Unit Shipments, by Technology, Latin America: 2009-2020Communication Node Unit Shipments by Application, Europe: 2009-2020Communications Node Unit Shipments by Device Type, Europe: 2009-2020Communications Node Average Selling Price by Device Type, Europe: 2009-2020Communications Node Revenue by Device Type, Europe: 2009-2020HAN Node Unit Shipments by Technology, Europe: 2009-2020AMI-NAN Node Unit Shipments by Technology, Europe: 2009-2020AMI-WAN Node Unit Shipments by Technology, Europe: 2009-2020DA-WAN Node Unit Shipments by Technology, Europe: 2009-2020SA-WAN Node Unit Shipments by Technology, Europe: 2009-2020Communications Node Unit Shipments by Application, Asia Pacific: 2009-2020Communications Node Unit Shipments by Device Type, Asia Pacific: 2009-2020Communications Node Average Selling Price by Device Type, Asia Pacific: 2009-2020Communications Node Revenue by Device Type, Asia Pacific: 2009-2020HAN Node Unit Shipments by Technology, Asia Pacific: 2009-2020AMI-NAN Node Unit Shipments by Technology, Asia Pacific: 2009-2020AMI-WAN Node Unit Shipments by Technology, Asia Pacific: 2009-2020DA-WAN Node Unit Shipments by Technology, Asia Pacific: 2009-2020SA-WAN Node Unit Shipments by Technology, Asia Pacific: 2009-2020Communications Node Unit Shipments by Application, Middle East Africa: 2009-2020Communications Node Unit Shipments by Device Type, Middle East Africa: 2009-2020Communications Node Average Selling Price by Device Type, Middle East Africa: 2009-2020Communications Node Revenue by Device Type, Middle East Africa: 2009-2020HAN Node Unit Shipments by Technology, Middle East Africa: 2009-2020AMI-NAN Node Unit Shipments by Technology, Middle East Africa: 2009-2020AMI-WAN Node Unit Shipments by Technology, Middle East Africa: 2009-2020DA-WAN Node Unit Shipments by Technology, World Markets: 2009-2020SA-WAN Node Unit Shipments by Technology, World Markets: 2009-2020All Node Unit Shipments by Technology, World Markets: 2009-2020Communications Node Unit Shipments by Application, North America: 2009-2020Communications Node Unit Shipments by Device Type, North America: 2009-2020Communications Node Average Selling Price by Device Type, North America: 2009-2020Communications Node Revenue by Device Type, North America: 2009-2020HAN Node Unit Shipments by Technology, North America: 2009-2020AMI-NAN Node Unit Shipments by Technology, North America: 2009-2020AMI-WAN Node Unit Shipments by Technology, North America: 2009-2020DA-WAN Node Unit Shipments by Technology, North America: 2009-2020SA-WAN Node Unit Shipments by Technology, North America: 2009-2020Communications Node Unit Shipments by Application, United States: 2009-2020Communications Node Unit Shipments by Device Type, United States: 2009-2020Communications Node Revenue by Device Type, United States: 2009-2020DA-WAN Node Unit Shipments by Technology, Middle East Africa: 2009-2020SA-WAN Node Unit Shipments by Technology, Middle East Africa: 2009-2020HAN Communications Node Unit Shipments by Region, World Markets: 2009-2020AMI-NAN Communications Node Unit Shipments by Region, World Markets: 2009-2020AMI-WAN Communications Node Unit Shipments by Region, World Markets: 2009-2020DA-WAN Communications Node Unit Shipments by Region, World Markets: 2009-2020SA-WAN Communications Node Unit Shipments by Region, World Markets: 2009-2020HAN Node Unit Shipments and Revenue by Region, World Markets: 2009-2020AMI Node Unit Shipments and Revenue by Region, World Markets: 2009-2020AMI Concentrator Unit Shipments and Revenue by Region, World Markets: 2009-2020Network Interface Converter Unit Shipments and Revenue by Region, World Markets: 2009-2020Substation Router Unit Shipments and Revenue by Region, World Markets: 2009-2020Substation Ethernet Switch Unit Shipments and Revenue by Region, World Markets: 2009-2020WAN Backbone Unit Shipments and Revenue by Region, World Markets: 2009-2020Generalized Grid Router Unit Shipments and Revenue by Region, World Markets: 2009-2020Total Smart Grid Communications Revenue by Region, World Markets: 2009-2020
Smart Grid Networking and Communications
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