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|Title=Encodings for Evolutionary Algorithms in smart buildings with energy management systems | |Title=Encodings for Evolutionary Algorithms in smart buildings with energy management systems | ||
|Year=2014 | |Year=2014 | ||
|Booktitle=Evolutionary Computation (CEC), 2014 IEEE Congress on | |Booktitle=Evolutionary Computation (CEC), 2014 IEEE Congress on | ||
− | |Pages=2361-2366 | + | |Pages=2361-2366 |
|Publisher=IEEE | |Publisher=IEEE | ||
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Version vom 16. Januar 2015, 10:26 Uhr
Encodings for Evolutionary Algorithms in smart buildings with energy management systems
Encodings for Evolutionary Algorithms in smart buildings with energy management systems
Published: 2014
Buchtitel: Evolutionary Computation (CEC), 2014 IEEE Congress on
Seiten: 2361-2366
Verlag: IEEE
Referierte Veröffentlichung
BibTeX
Kurzfassung
In energy systems, the transition from traditional, centralized architecture and controllable generation to an ever more decentralized and volatile generation due to an increasing use of renewable energy sources arises new challenges for the management and balancing of the electricity grid. These can be met through energy management systems (EMS) that enable flexible consumption and production of energy on the demand side of the grid. The EMS for smart buildings that is used within this paper allows for the integration of a multitude of devices through an architectural approach which is similar to “plug-and-play”. These devices can then be optimized to a flexible load shape by an Evolutionary Algorithm (EA). The differentiated optimization capabilities of the devices require adequate encoding schemes. Such schemes are the major contribution of this paper. The aptitude of these encodings is shown and validated through the simulation of smart buildings with different configurations, both concerning quantitative and qualitative benefits to be achieved according to energy systems' transition and users' objectives.
DOI Link: 10.1109/CEC.2014.6900633
Energy Smart Home Lab, Organic Smart Home
Evolutionäre Algorithmen, Energieinformatik