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Table of Contents
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
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
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
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
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
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
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
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
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