Abstract
Smart buildings represent a prototypical cyber-physical system with deeply coupled embedded sensing and networked information processing that has increasingly become part of our daily lives. The notion of cyber physical is very important because the cyber word collects information from the various physical parameters through sensors and smart devices and on the basis of this information the main controller makes decisions and an energy distribution plan during outage period. Through context-aware sensing and computation the cyber-physical systems will be able to acquire contextual awareness information from the physical world and use this information in an intelligent way to build an effective energy management system based on smart distribution of power produced from renewable resources. The proposed approach allow a dynamic selection based on real time consumption measurement and information collected by different controllers installed in different entities inside building to decide the entities that will be powered during outage, the idea presents a way for optimization of restored energy and a intelligent strategy to response to customer demands based on their classification and their needing priority. An algorithm is developed to implement our approach with a simulation in Java environment to validate our efficiency management system through on-site distributed generators within buildings to operate in islanding mode. Finally, The objective of this paper is to propose a solution for new building generation that represent future smart cities concept and to have an self-supply based on distributed generation without needing to be connected to the main power grid.
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Hamdaoui, Y., Maach, A. (2018). Energy Efficiency Approach for Smart Building in Islanding Mode Based on Distributed Energy Resources. In: Ezziyyani, M., Bahaj, M., Khoukhi, F. (eds) Advanced Information Technology, Services and Systems. AIT2S 2017. Lecture Notes in Networks and Systems, vol 25. Springer, Cham. https://doi.org/10.1007/978-3-319-69137-4_4
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DOI: https://doi.org/10.1007/978-3-319-69137-4_4
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