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|a IT solutions for the smart grid :
|b theory, application, and economic assessment /
|c Tobias Brandt.
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|a Wiesbaden :
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|c 2016.
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|a Includes bibliographical references.
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|a Acknowledgements; Contents; List of Figures; List of Tables; I Introduction: Integrating Sustainable Energy Technologies; 1 Motivation: A Changing Energy Landscape; 1.1 Lifeblood of Society; 1.2 Adapting to a Changing World; 1.3 The Transition towards Renewable Energy; 2 Smart Grids; 2.1 The Smart Grid Architectural Model; 2.2 Energy Informatics; 3 Research Framework; 4 Thesis Summary; 4.1 Summary: Designing IT Solutions for Individual Households; 4.2 Summary: Designing an Energy Information System for Microgrid Operation.
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|a 4.3 Summary: A Business Model for Employing Electric Vehicles for Energy Storage4.4 Summary: Mechanism Stability-Flash Crashes and Avalanche Effects; 5 Conclusion; 5.1 Key Insights; 5.2 Outlook; 6 References; II Designing IT Solutions for Individual Households; Abstract; 1 Introduction; 2 Related Work; 2.1 Research Domain: Energy Informatics; 2.2 Research Approach: Design Science; 2.3 Research Gap: IS Design in Smart Grids; 3 Research Model; 3.1 Definitions; 3.2 Modeling IS Design in the Smart Grid; 4 Case Study: Green Synergies; 4.1 Setting and Motivation; 4.2 Information System Design.
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|a 4.3 Testing and Evaluation5 From Objectives to Outcomes: Preventing Interferences; 5.1 Point of Interference: From Design Objectives to the IT Artifact; 5.2 Point of Interference: From the IT Artifact to the Technical Object; 5.3 Point of Interference: From Enhancing Features to Enhancing Affordances; 6 Conclusion; 7 References; 8 Appendix; 8.1 Physical System; 8.2 Implemented Strategies; III Designing an Energy Information System for Microgrid Operation; Abstract; 1 Introduction; 2 Relevance to IS Research and Related Work; 2.1 Green IS and Energy Informatics.
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|a 2.2 General Research on Microgrids3 Problem Statement and Research Design; 4 Information System Design and Evaluation; 4.1 Forecasting Modules; 4.2 Optimization Module; 4.3 Evaluation Setting; 4.4 Evaluation Results; 5 Discussion; 5.1 Technical and Economics Implications; 5.2 Implications for IS Research; 6 Conclusion; 7 References; 8 Appendix; IV A Business Model for Employing Electric Vehicles for Energy Storage; Abstract; 1 Introduction; 2 Research Framework and Related Work; 2.1 Electric Mobility and Renewable Energy; 2.2 Electric Vehicle Aggregation and Frequency Regulation.
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|a 2.3 Parking Garage Operators as Intermediaries2.4 Business Models; 3 Modelling the Business Case; 3.1 Product; 3.2 Customer Interface; 3.3 Infrastructure Management; 3.4 Financial Aspects and Business Model Synopsis; 4 Evaluation of the Business Model; 4.1 Market for Frequency Regulation; 4.2 Data Sources; 4.3 Modeling Annual Revenue; 4.4 Results; 5 Discussion; 6 Conclusion; 7 References; V Mechanism Stability-Flash Crashes and Avalanche Effects; Abstract; 1 Introduction; 2 Related Work; 2.1 Market Crashes; 2.2 Information Processing and Competitive Advantage.
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|a Tobias Brandt outlines how information technology (IT) can be used to integrate sustainable energy technologies into existing infrastructures. The topic is approached from micro, meso, as well as macro perspectives. He first describes how IT artifacts can be used to manage renewable energy sources and energy storage devices in individual households and microgrids for an improved economic and ecological performance. The author proceeds by assessing the economic feasibility of aggregating electric vehicles for large-scale energy storage. The final chapter explores the issue of stability in automated mechanisms. A game-theoretical model is first introduced for financial markets and later transferred to the automated management of energy demand. Contents Designing IT Solutions for Individual Households Designing an Energy Information System for Microgrid Operation A Business Model for Employing Electric Vehicles for Energy Storage Mechanism Stability: Flash Crashes and Avalanche Effects Target Groups Students, teachers and researchers in the field of information systems, computer science, and economics, especially with a focus on renewable energy integration Practitioners in the energy and mobility sectors The Author Tobias Brandt heads the Smart Cities and Industries research group at the Chair for Information Systems Research of the University of Freiburg, Germany. He specializes in the challenges and opportunities arising from an ongoing digitalization of the economy and society.
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|a English.
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| 650 |
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|a Smart power grids.
|0 http://id.loc.gov/authorities/subjects/sh2011003732
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|i Print version:
|a Brandt, Tobias.
|t IT Solutions for the Smart Grid : Theory, Application, and Economic Assessment.
|d Wiesbaden : Springer Fachmedien Wiesbaden, ©2016
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