Verfügbarkeit: The Smart Grid as an Application Development Platform /

The Smart Grid as an Application Development Platform /:

This authoritative new resource explores the power grid from its classical role as a utility or service provider towards its new role as an application development platform. This book gives insight into the vision, problems and solutions, and risks of the smart grid model. The evolution of the power...

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Bibliographische Detailangaben
Hauptverfasser:	Koutitas, George (VerfasserIn), McClellan, Stan, 1963- (VerfasserIn)
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	Boston ; London : Artech House, [2017]
Schriftenreihe:	Artech House power engineering series.
Schlagworte:	Smart power grids. Application software > Development. Réseaux électriques intelligents. Logiciels d'application > Développement. TECHNOLOGY & ENGINEERING > Mechanical. Application software > Development Smart power grids TECHNOLOGY & ENGINEERING / Power Resources / Electrical Technology, Engineering, Agriculture Technologie, Ingenieurswissenschaft, Landwirtschaft Technologie, ingénierie et agriculture Energy technology & engineering Energietechnik, Elektrotechnik und Energiemaschinenbau Génie industriel Energy, power generation, distribution & storage Energieerzeugung und -verteilung Énergie, production d'énergie, distribution et stockage
Online-Zugang:	Volltext
Zusammenfassung:	This authoritative new resource explores the power grid from its classical role as a utility or service provider towards its new role as an application development platform. This book gives insight into the vision, problems and solutions, and risks of the smart grid model. The evolution of the power grid as it develops into an application-centric environment is explained in this book. This resource guides readers to better understand the primary motivation of the smart grid, and to explore how new technologies are creating a cleaner and more sustainable ecosystem for new business models to blossom. Key topics include the basics of electricity and the conventional grid structure, as well as the relationships between conventional economic models and emerging models based on transactive energy and the sharing economy.n nThis book presents the orchestration of smart grid technologies as they are transforming the utility sector toward a human-centric grid. Readers gain insight into how they are playing an active role in the operation of the utility business as well as in the transfer of electrons. This book demonstrates how the new smart grid is becoming a distributed system that supports decentralized services through modern trends and distributed system architectures. Readers learn how grid intelligence and energy production migrates to the edge of the network. This book explores how consumers are transformed to "prosumers" of energy and providers of critical data that are dramatically changing the relationship with the electric utility business in order to enable new applications and services.
Beschreibung:	1 online resource : illustrations
Bibliographie:	Includes bibliographical references and index.
ISBN:	9781630814915 1630814911

Internformat

MARC


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100	1		\|a Koutitas, George, \|e author.
245	1	4	\|a The Smart Grid as an Application Development Platform / \|c George Koutitas, Stan McClellan.
264		1	\|a Boston ; \|a London : \|b Artech House, \|c [2017]
300			\|a 1 online resource : \|b illustrations
336			\|a text \|b txt \|2 rdacontent
337			\|a computer \|b c \|2 rdamedia
338			\|a online resource \|b cr \|2 rdacarrier
490	1		\|a Artech House power engineering library
588	0		\|a Print version record.
504			\|a Includes bibliographical references and index.
520	3		\|a This authoritative new resource explores the power grid from its classical role as a utility or service provider towards its new role as an application development platform. This book gives insight into the vision, problems and solutions, and risks of the smart grid model. The evolution of the power grid as it develops into an application-centric environment is explained in this book. This resource guides readers to better understand the primary motivation of the smart grid, and to explore how new technologies are creating a cleaner and more sustainable ecosystem for new business models to blossom. Key topics include the basics of electricity and the conventional grid structure, as well as the relationships between conventional economic models and emerging models based on transactive energy and the sharing economy.n nThis book presents the orchestration of smart grid technologies as they are transforming the utility sector toward a human-centric grid. Readers gain insight into how they are playing an active role in the operation of the utility business as well as in the transfer of electrons. This book demonstrates how the new smart grid is becoming a distributed system that supports decentralized services through modern trends and distributed system architectures. Readers learn how grid intelligence and energy production migrates to the edge of the network. This book explores how consumers are transformed to "prosumers" of energy and providers of critical data that are dramatically changing the relationship with the electric utility business in order to enable new applications and services. \|c Publisher abstract
588			\|a Online resource; title from PDF title page (EBSCO, viewed June 29, 2018).
505	0		\|a The Smart Grid as an ApplicationDevelopment Platform; Contents; Preface; 1 Smart Grid Business Model; 1.1 Summary; 1.2 Vision; 1.3 Problem; 1.4 Solution; 1.5 Growth Strategy; 1.6 Business Model; 1.7 Risks; References; 2 The Power Grid at a Glance; 2.1 Summary; 2.2 Useful Data; 2.2.1 Power and Energy; 2.2.2 Capacity, Generation, Consumption, and Demand; 2.2.3 Alternating Current, Direct Current, Active Power, and Reactive Power; 2.2.4 Example from Smart Meter Data; 2.3 Grid Architecture; 2.3.1 Organization, Players, and Regions; 2.3.2 Production; 2.3.3 Transmission; 2.3.4 Distribution.
505	8		\|a 2.4 Drawbacks of Current Network Design2.4.1 Waste of Resources and Pollution; 2.4.2 Adaptation to Time-Variable Production and Consumption; 2.4.3 Passive Nature of the End Consumer; 2.4.4 Business Models; 2.4.5 Security/Outages; 2.5 Energy Markets; 2.5.1 Wholesale Market; 2.5.2 Retail Market; 2.5.3 Analyzing the Bill; 2.6 Understanding the Consumer; 2.6.1 Appliances Footprint; 2.6.2 Electricity Usage Analysis; 2.6.3 Archetypes of Consumers; 2.7 Lessons Learned from the Telecommunications Industry; References; 3 Smart Grid Elements; 3.1 Summary; 3.2 The System of Systems.
505	8		\|a 3.2.1 Evolution of the Grid3.2.2 Architecture and Standards; 3.2.3 Interoperability and Protocols; 3.3 Business of Businesses; 3.3.1 Utility of the Future; 3.3.2 New Business Models and Players; 3.3.3 Business-to-Consumer Providers; 3.3.4 Utility Customer Beyond 2020; 3.3.5 The Social Smart Grid; 3.3.6 Start-Up Ecosystem; 3.4 The ICT Layer; 3.4.1 Smart Metering; 3.4.2 Networking; 3.4.3 Advanced Metering Infrastructure; 3.4.4 Meter Data Management Systems; 3.4.5 Example of In-Home Smart Metering; 3.5 Evolution of Prosumers; 3.5.1 The Path to Off-Grid; 3.5.2 Connected Homes; 3.5.3 Standards.
505	8		\|a 3.6 Microgrids3.6.1 Architecture; 3.6.2 Types of Microgrids; 3.7 Virtual Power Plants; 3.7.1 Architecture; 3.7.2 Emerging Trends; 3.8 Electric Vehicles; 3.8.1 Electric Vehicle Types and Charging Technologies; 3.8.2 Effect on Consumption Patterns; 3.8.3 V2G Concept; 3.9 Smart Grid Pricing; 3.9.1 Pricing Models; 3.9.2 Net Metering; 3.9.3 Renewable Energy Credits and Peak Load Credits; References; 4 The Cloud Environment of Application Providers; 4.1 Summary; 4.2 Overview of Services; 4.3 Introduction to Cloud Computing; 4.3.1 Web Services and APIs; 4.3.2 Reserving Resources in the Cloud.
505	8		\|a 4.3.3 Example of Web Services for Home Automation4.4 Product Development in the Cloud; 4.4.1 Defining the Pricing Model of SaaS Service; 4.4.2 Web App or Mobile App?; 4.4.3 Security and Privacy; 4.4.4 Steps for Accessing Open APIs with Product Innovators; 4.4.5 White Labeling; 4.5 Open Data and APIs; 4.5.1 Energy Information Administration; 4.5.2 Green Button; 4.5.3 Orange Button; 4.5.4 PVWatts API; 4.5.5 Microinverter APIs; 4.5.6 Smart Thermostat and Connected Home Device APIs; 4.5.7 Energy Usage Datasets; 4.5.8 MultiSpeak; 4.6 Open ADR; 4.6.1 Key Actors and Services.
650		0	\|a Smart power grids. \|0 http://id.loc.gov/authorities/subjects/sh2011003732
650		0	\|a Application software \|x Development. \|0 http://id.loc.gov/authorities/subjects/sh95009362
650		6	\|a Réseaux électriques intelligents.
650		6	\|a Logiciels d'application \|x Développement.
650		7	\|a TECHNOLOGY & ENGINEERING \|x Mechanical. \|2 bisacsh
650		7	\|a Application software \|x Development \|2 fast
650		7	\|a Smart power grids \|2 fast
653			\|a TECHNOLOGY & ENGINEERING / Power Resources / Electrical
653			\|a Technology, Engineering, Agriculture
653			\|a Technologie, Ingenieurswissenschaft, Landwirtschaft
653			\|a Technologie, ingénierie et agriculture
653			\|a Energy technology & engineering
653			\|a Energietechnik, Elektrotechnik und Energiemaschinenbau
653			\|a Génie industriel
653			\|a Energy, power generation, distribution & storage
653			\|a Energieerzeugung und -verteilung
653			\|a Énergie, production d'énergie, distribution et stockage
700	1		\|a McClellan, Stan, \|d 1963- \|e author. \|1 https://id.oclc.org/worldcat/entity/E39PCjKFgmJy97Y4WHm8fKkwwd \|0 http://id.loc.gov/authorities/names/no2017142481
758			\|i has work: \|a The smart grid as an application development platform (Text) \|1 https://id.oclc.org/worldcat/entity/E39PCFRDfrhY3V7yGWQrhhbRPP \|4 https://id.oclc.org/worldcat/ontology/hasWork
776	0	8	\|i Print version: \|a Koutitas, George. \|t Smart grid as an application development platform. \|d Boston ; London : Artech House, [2017] \|z 1630811092 \|w (DLC) 2017297230 \|w (OCoLC)1005868065
830		0	\|a Artech House power engineering series. \|0 http://id.loc.gov/authorities/names/no2013082523
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author	Koutitas, George McClellan, Stan, 1963-
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contents	The Smart Grid as an ApplicationDevelopment Platform; Contents; Preface; 1 Smart Grid Business Model; 1.1 Summary; 1.2 Vision; 1.3 Problem; 1.4 Solution; 1.5 Growth Strategy; 1.6 Business Model; 1.7 Risks; References; 2 The Power Grid at a Glance; 2.1 Summary; 2.2 Useful Data; 2.2.1 Power and Energy; 2.2.2 Capacity, Generation, Consumption, and Demand; 2.2.3 Alternating Current, Direct Current, Active Power, and Reactive Power; 2.2.4 Example from Smart Meter Data; 2.3 Grid Architecture; 2.3.1 Organization, Players, and Regions; 2.3.2 Production; 2.3.3 Transmission; 2.3.4 Distribution. 2.4 Drawbacks of Current Network Design2.4.1 Waste of Resources and Pollution; 2.4.2 Adaptation to Time-Variable Production and Consumption; 2.4.3 Passive Nature of the End Consumer; 2.4.4 Business Models; 2.4.5 Security/Outages; 2.5 Energy Markets; 2.5.1 Wholesale Market; 2.5.2 Retail Market; 2.5.3 Analyzing the Bill; 2.6 Understanding the Consumer; 2.6.1 Appliances Footprint; 2.6.2 Electricity Usage Analysis; 2.6.3 Archetypes of Consumers; 2.7 Lessons Learned from the Telecommunications Industry; References; 3 Smart Grid Elements; 3.1 Summary; 3.2 The System of Systems. 3.2.1 Evolution of the Grid3.2.2 Architecture and Standards; 3.2.3 Interoperability and Protocols; 3.3 Business of Businesses; 3.3.1 Utility of the Future; 3.3.2 New Business Models and Players; 3.3.3 Business-to-Consumer Providers; 3.3.4 Utility Customer Beyond 2020; 3.3.5 The Social Smart Grid; 3.3.6 Start-Up Ecosystem; 3.4 The ICT Layer; 3.4.1 Smart Metering; 3.4.2 Networking; 3.4.3 Advanced Metering Infrastructure; 3.4.4 Meter Data Management Systems; 3.4.5 Example of In-Home Smart Metering; 3.5 Evolution of Prosumers; 3.5.1 The Path to Off-Grid; 3.5.2 Connected Homes; 3.5.3 Standards. 3.6 Microgrids3.6.1 Architecture; 3.6.2 Types of Microgrids; 3.7 Virtual Power Plants; 3.7.1 Architecture; 3.7.2 Emerging Trends; 3.8 Electric Vehicles; 3.8.1 Electric Vehicle Types and Charging Technologies; 3.8.2 Effect on Consumption Patterns; 3.8.3 V2G Concept; 3.9 Smart Grid Pricing; 3.9.1 Pricing Models; 3.9.2 Net Metering; 3.9.3 Renewable Energy Credits and Peak Load Credits; References; 4 The Cloud Environment of Application Providers; 4.1 Summary; 4.2 Overview of Services; 4.3 Introduction to Cloud Computing; 4.3.1 Web Services and APIs; 4.3.2 Reserving Resources in the Cloud. 4.3.3 Example of Web Services for Home Automation4.4 Product Development in the Cloud; 4.4.1 Defining the Pricing Model of SaaS Service; 4.4.2 Web App or Mobile App?; 4.4.3 Security and Privacy; 4.4.4 Steps for Accessing Open APIs with Product Innovators; 4.4.5 White Labeling; 4.5 Open Data and APIs; 4.5.1 Energy Information Administration; 4.5.2 Green Button; 4.5.3 Orange Button; 4.5.4 PVWatts API; 4.5.5 Microinverter APIs; 4.5.6 Smart Thermostat and Connected Home Device APIs; 4.5.7 Energy Usage Datasets; 4.5.8 MultiSpeak; 4.6 Open ADR; 4.6.1 Key Actors and Services.
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2.3.1 Organization, Players, and Regions; 2.3.2 Production; 2.3.3 Transmission; 2.3.4 Distribution.</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">2.4 Drawbacks of Current Network Design2.4.1 Waste of Resources and Pollution; 2.4.2 Adaptation to Time-Variable Production and Consumption; 2.4.3 Passive Nature of the End Consumer; 2.4.4 Business Models; 2.4.5 Security/Outages; 2.5 Energy Markets; 2.5.1 Wholesale Market; 2.5.2 Retail Market; 2.5.3 Analyzing the Bill; 2.6 Understanding the Consumer; 2.6.1 Appliances Footprint; 2.6.2 Electricity Usage Analysis; 2.6.3 Archetypes of Consumers; 2.7 Lessons Learned from the Telecommunications Industry; References; 3 Smart Grid Elements; 3.1 Summary; 3.2 The System of Systems.</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">3.2.1 Evolution of the Grid3.2.2 Architecture and Standards; 3.2.3 Interoperability and Protocols; 3.3 Business of Businesses; 3.3.1 Utility of the Future; 3.3.2 New Business Models and Players; 3.3.3 Business-to-Consumer Providers; 3.3.4 Utility Customer Beyond 2020; 3.3.5 The Social Smart Grid; 3.3.6 Start-Up Ecosystem; 3.4 The ICT Layer; 3.4.1 Smart Metering; 3.4.2 Networking; 3.4.3 Advanced Metering Infrastructure; 3.4.4 Meter Data Management Systems; 3.4.5 Example of In-Home Smart Metering; 3.5 Evolution of Prosumers; 3.5.1 The Path to Off-Grid; 3.5.2 Connected Homes; 3.5.3 Standards.</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">3.6 Microgrids3.6.1 Architecture; 3.6.2 Types of Microgrids; 3.7 Virtual Power Plants; 3.7.1 Architecture; 3.7.2 Emerging Trends; 3.8 Electric Vehicles; 3.8.1 Electric Vehicle Types and Charging Technologies; 3.8.2 Effect on Consumption Patterns; 3.8.3 V2G Concept; 3.9 Smart Grid Pricing; 3.9.1 Pricing Models; 3.9.2 Net Metering; 3.9.3 Renewable Energy Credits and Peak Load Credits; References; 4 The Cloud Environment of Application Providers; 4.1 Summary; 4.2 Overview of Services; 4.3 Introduction to Cloud Computing; 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id	ZDB-4-EBA-on1027696848
illustrated	Illustrated
indexdate	2024-11-27T13:28:14Z
institution	BVB
isbn	9781630814915 1630814911
language	English
oclc_num	1027696848
open_access_boolean
owner	MAIN DE-863 DE-BY-FWS
owner_facet	MAIN DE-863 DE-BY-FWS
physical	1 online resource : illustrations
psigel	ZDB-4-EBA
publishDate	2017
publishDateSearch	2017
publishDateSort	2017
publisher	Artech House,
record_format	marc
series	Artech House power engineering series.
series2	Artech House power engineering library
spelling	Koutitas, George, author. The Smart Grid as an Application Development Platform / George Koutitas, Stan McClellan. Boston ; London : Artech House, [2017] 1 online resource : illustrations text txt rdacontent computer c rdamedia online resource cr rdacarrier Artech House power engineering library Print version record. Includes bibliographical references and index. This authoritative new resource explores the power grid from its classical role as a utility or service provider towards its new role as an application development platform. This book gives insight into the vision, problems and solutions, and risks of the smart grid model. The evolution of the power grid as it develops into an application-centric environment is explained in this book. This resource guides readers to better understand the primary motivation of the smart grid, and to explore how new technologies are creating a cleaner and more sustainable ecosystem for new business models to blossom. Key topics include the basics of electricity and the conventional grid structure, as well as the relationships between conventional economic models and emerging models based on transactive energy and the sharing economy.n nThis book presents the orchestration of smart grid technologies as they are transforming the utility sector toward a human-centric grid. Readers gain insight into how they are playing an active role in the operation of the utility business as well as in the transfer of electrons. This book demonstrates how the new smart grid is becoming a distributed system that supports decentralized services through modern trends and distributed system architectures. Readers learn how grid intelligence and energy production migrates to the edge of the network. This book explores how consumers are transformed to "prosumers" of energy and providers of critical data that are dramatically changing the relationship with the electric utility business in order to enable new applications and services. Publisher abstract Online resource; title from PDF title page (EBSCO, viewed June 29, 2018). The Smart Grid as an ApplicationDevelopment Platform; Contents; Preface; 1 Smart Grid Business Model; 1.1 Summary; 1.2 Vision; 1.3 Problem; 1.4 Solution; 1.5 Growth Strategy; 1.6 Business Model; 1.7 Risks; References; 2 The Power Grid at a Glance; 2.1 Summary; 2.2 Useful Data; 2.2.1 Power and Energy; 2.2.2 Capacity, Generation, Consumption, and Demand; 2.2.3 Alternating Current, Direct Current, Active Power, and Reactive Power; 2.2.4 Example from Smart Meter Data; 2.3 Grid Architecture; 2.3.1 Organization, Players, and Regions; 2.3.2 Production; 2.3.3 Transmission; 2.3.4 Distribution. 2.4 Drawbacks of Current Network Design2.4.1 Waste of Resources and Pollution; 2.4.2 Adaptation to Time-Variable Production and Consumption; 2.4.3 Passive Nature of the End Consumer; 2.4.4 Business Models; 2.4.5 Security/Outages; 2.5 Energy Markets; 2.5.1 Wholesale Market; 2.5.2 Retail Market; 2.5.3 Analyzing the Bill; 2.6 Understanding the Consumer; 2.6.1 Appliances Footprint; 2.6.2 Electricity Usage Analysis; 2.6.3 Archetypes of Consumers; 2.7 Lessons Learned from the Telecommunications Industry; References; 3 Smart Grid Elements; 3.1 Summary; 3.2 The System of Systems. 3.2.1 Evolution of the Grid3.2.2 Architecture and Standards; 3.2.3 Interoperability and Protocols; 3.3 Business of Businesses; 3.3.1 Utility of the Future; 3.3.2 New Business Models and Players; 3.3.3 Business-to-Consumer Providers; 3.3.4 Utility Customer Beyond 2020; 3.3.5 The Social Smart Grid; 3.3.6 Start-Up Ecosystem; 3.4 The ICT Layer; 3.4.1 Smart Metering; 3.4.2 Networking; 3.4.3 Advanced Metering Infrastructure; 3.4.4 Meter Data Management Systems; 3.4.5 Example of In-Home Smart Metering; 3.5 Evolution of Prosumers; 3.5.1 The Path to Off-Grid; 3.5.2 Connected Homes; 3.5.3 Standards. 3.6 Microgrids3.6.1 Architecture; 3.6.2 Types of Microgrids; 3.7 Virtual Power Plants; 3.7.1 Architecture; 3.7.2 Emerging Trends; 3.8 Electric Vehicles; 3.8.1 Electric Vehicle Types and Charging Technologies; 3.8.2 Effect on Consumption Patterns; 3.8.3 V2G Concept; 3.9 Smart Grid Pricing; 3.9.1 Pricing Models; 3.9.2 Net Metering; 3.9.3 Renewable Energy Credits and Peak Load Credits; References; 4 The Cloud Environment of Application Providers; 4.1 Summary; 4.2 Overview of Services; 4.3 Introduction to Cloud Computing; 4.3.1 Web Services and APIs; 4.3.2 Reserving Resources in the Cloud. 4.3.3 Example of Web Services for Home Automation4.4 Product Development in the Cloud; 4.4.1 Defining the Pricing Model of SaaS Service; 4.4.2 Web App or Mobile App?; 4.4.3 Security and Privacy; 4.4.4 Steps for Accessing Open APIs with Product Innovators; 4.4.5 White Labeling; 4.5 Open Data and APIs; 4.5.1 Energy Information Administration; 4.5.2 Green Button; 4.5.3 Orange Button; 4.5.4 PVWatts API; 4.5.5 Microinverter APIs; 4.5.6 Smart Thermostat and Connected Home Device APIs; 4.5.7 Energy Usage Datasets; 4.5.8 MultiSpeak; 4.6 Open ADR; 4.6.1 Key Actors and Services. Smart power grids. http://id.loc.gov/authorities/subjects/sh2011003732 Application software Development. http://id.loc.gov/authorities/subjects/sh95009362 Réseaux électriques intelligents. Logiciels d'application Développement. TECHNOLOGY & ENGINEERING Mechanical. bisacsh Application software Development fast Smart power grids fast TECHNOLOGY & ENGINEERING / Power Resources / Electrical Technology, Engineering, Agriculture Technologie, Ingenieurswissenschaft, Landwirtschaft Technologie, ingénierie et agriculture Energy technology & engineering Energietechnik, Elektrotechnik und Energiemaschinenbau Génie industriel Energy, power generation, distribution & storage Energieerzeugung und -verteilung Énergie, production d'énergie, distribution et stockage McClellan, Stan, 1963- author. https://id.oclc.org/worldcat/entity/E39PCjKFgmJy97Y4WHm8fKkwwd http://id.loc.gov/authorities/names/no2017142481 has work: The smart grid as an application development platform (Text) https://id.oclc.org/worldcat/entity/E39PCFRDfrhY3V7yGWQrhhbRPP https://id.oclc.org/worldcat/ontology/hasWork Print version: Koutitas, George. Smart grid as an application development platform. Boston ; London : Artech House, [2017] 1630811092 (DLC) 2017297230 (OCoLC)1005868065 Artech House power engineering series. http://id.loc.gov/authorities/names/no2013082523 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=1825910 Volltext
spellingShingle	Koutitas, George McClellan, Stan, 1963- The Smart Grid as an Application Development Platform / Artech House power engineering series. The Smart Grid as an ApplicationDevelopment Platform; Contents; Preface; 1 Smart Grid Business Model; 1.1 Summary; 1.2 Vision; 1.3 Problem; 1.4 Solution; 1.5 Growth Strategy; 1.6 Business Model; 1.7 Risks; References; 2 The Power Grid at a Glance; 2.1 Summary; 2.2 Useful Data; 2.2.1 Power and Energy; 2.2.2 Capacity, Generation, Consumption, and Demand; 2.2.3 Alternating Current, Direct Current, Active Power, and Reactive Power; 2.2.4 Example from Smart Meter Data; 2.3 Grid Architecture; 2.3.1 Organization, Players, and Regions; 2.3.2 Production; 2.3.3 Transmission; 2.3.4 Distribution. 2.4 Drawbacks of Current Network Design2.4.1 Waste of Resources and Pollution; 2.4.2 Adaptation to Time-Variable Production and Consumption; 2.4.3 Passive Nature of the End Consumer; 2.4.4 Business Models; 2.4.5 Security/Outages; 2.5 Energy Markets; 2.5.1 Wholesale Market; 2.5.2 Retail Market; 2.5.3 Analyzing the Bill; 2.6 Understanding the Consumer; 2.6.1 Appliances Footprint; 2.6.2 Electricity Usage Analysis; 2.6.3 Archetypes of Consumers; 2.7 Lessons Learned from the Telecommunications Industry; References; 3 Smart Grid Elements; 3.1 Summary; 3.2 The System of Systems. 3.2.1 Evolution of the Grid3.2.2 Architecture and Standards; 3.2.3 Interoperability and Protocols; 3.3 Business of Businesses; 3.3.1 Utility of the Future; 3.3.2 New Business Models and Players; 3.3.3 Business-to-Consumer Providers; 3.3.4 Utility Customer Beyond 2020; 3.3.5 The Social Smart Grid; 3.3.6 Start-Up Ecosystem; 3.4 The ICT Layer; 3.4.1 Smart Metering; 3.4.2 Networking; 3.4.3 Advanced Metering Infrastructure; 3.4.4 Meter Data Management Systems; 3.4.5 Example of In-Home Smart Metering; 3.5 Evolution of Prosumers; 3.5.1 The Path to Off-Grid; 3.5.2 Connected Homes; 3.5.3 Standards. 3.6 Microgrids3.6.1 Architecture; 3.6.2 Types of Microgrids; 3.7 Virtual Power Plants; 3.7.1 Architecture; 3.7.2 Emerging Trends; 3.8 Electric Vehicles; 3.8.1 Electric Vehicle Types and Charging Technologies; 3.8.2 Effect on Consumption Patterns; 3.8.3 V2G Concept; 3.9 Smart Grid Pricing; 3.9.1 Pricing Models; 3.9.2 Net Metering; 3.9.3 Renewable Energy Credits and Peak Load Credits; References; 4 The Cloud Environment of Application Providers; 4.1 Summary; 4.2 Overview of Services; 4.3 Introduction to Cloud Computing; 4.3.1 Web Services and APIs; 4.3.2 Reserving Resources in the Cloud. 4.3.3 Example of Web Services for Home Automation4.4 Product Development in the Cloud; 4.4.1 Defining the Pricing Model of SaaS Service; 4.4.2 Web App or Mobile App?; 4.4.3 Security and Privacy; 4.4.4 Steps for Accessing Open APIs with Product Innovators; 4.4.5 White Labeling; 4.5 Open Data and APIs; 4.5.1 Energy Information Administration; 4.5.2 Green Button; 4.5.3 Orange Button; 4.5.4 PVWatts API; 4.5.5 Microinverter APIs; 4.5.6 Smart Thermostat and Connected Home Device APIs; 4.5.7 Energy Usage Datasets; 4.5.8 MultiSpeak; 4.6 Open ADR; 4.6.1 Key Actors and Services. Smart power grids. http://id.loc.gov/authorities/subjects/sh2011003732 Application software Development. http://id.loc.gov/authorities/subjects/sh95009362 Réseaux électriques intelligents. Logiciels d'application Développement. TECHNOLOGY & ENGINEERING Mechanical. bisacsh Application software Development fast Smart power grids fast
subject_GND	http://id.loc.gov/authorities/subjects/sh2011003732 http://id.loc.gov/authorities/subjects/sh95009362
title	The Smart Grid as an Application Development Platform /
title_auth	The Smart Grid as an Application Development Platform /
title_exact_search	The Smart Grid as an Application Development Platform /
title_full	The Smart Grid as an Application Development Platform / George Koutitas, Stan McClellan.
title_fullStr	The Smart Grid as an Application Development Platform / George Koutitas, Stan McClellan.
title_full_unstemmed	The Smart Grid as an Application Development Platform / George Koutitas, Stan McClellan.
title_short	The Smart Grid as an Application Development Platform /
title_sort	smart grid as an application development platform
topic	Smart power grids. http://id.loc.gov/authorities/subjects/sh2011003732 Application software Development. http://id.loc.gov/authorities/subjects/sh95009362 Réseaux électriques intelligents. Logiciels d'application Développement. TECHNOLOGY & ENGINEERING Mechanical. bisacsh Application software Development fast Smart power grids fast
topic_facet	Smart power grids. Application software Development. Réseaux électriques intelligents. Logiciels d'application Développement. TECHNOLOGY & ENGINEERING Mechanical. Application software Development Smart power grids
url	https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=1825910
work_keys_str_mv	AT koutitasgeorge thesmartgridasanapplicationdevelopmentplatform AT mcclellanstan thesmartgridasanapplicationdevelopmentplatform AT koutitasgeorge smartgridasanapplicationdevelopmentplatform AT mcclellanstan smartgridasanapplicationdevelopmentplatform

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