Multi-agent coordination in the electricity grid, from concept towards market introduction
Proceedings of the 9th International Conference on Autonomous Agents and Multiagent Systems: Industry track
Bottom-up design patterns and the energy web
IEEE Transactions on Systems, Man, and Cybernetics, Part A: Systems and Humans
Agent-based coordination techniques for matching supply and demand in energy networks
Integrated Computer-Aided Engineering - Multi-Agent Systems for Energy Management
Comfort-aware home energy management under market-based demand-response
Proceedings of the 8th International Conference on Network and Service Management
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viding an increasing part of the worldwide electricity supply. At the same time, there is a big potential of demand response resources. When -- in a geographical area or in the contract portfolio of an energy trader -- the number of these Distributed Energy Resources (DER) increases, clustered control of DER by common ICT (information and communication technology) systems can add value. Due to the fine-grained and distributed nature of DER, the design of such a system needs to meet heavy requirements, e.g. regarding scalability and openness. Further, these systems need to balance multiple stakes in a multi- actor environment. Multiagent systems, especially those based on electronic markets have been identified as key technologies in this respect. This paper presents a multiperspective case study of the design, implementation and performance of such a system for the business case of imbalance reduction in commercial clusters of DER. The benefits of this approach are shown by field experimental results of a real-life DER cluster with an imbalance characteristic dominated by wind electricity production. The approach resulted in substantial imbalance reductions. Further, a thorough analysis of the networked business constellation is given, together with an indication how business modelling techniques can be used to asses the financial feasibility of the business idea.