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Adaptive and Intelligent Edge Computing Based Building Energy Management System

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Trends in Sustainable Smart Cities and Territories (SSCT 2023)

Abstract

Most building and energy management system (BEMS) solutions follow a set of rules (supervised or unsupervised learning) to make energy-saving recommendations to inhabitants. However, these systems are normally solely trained on energy data meaning that they do not consider other key factors, such as the inhabitants’ comfort or preferences. The lack of adaption to inhabitants renders these energy-saving solutions largely ineffective. Moreover, BEMS solutions are cloud-based entailing greater cyberattack risks and a high data transmission load. To address these problems, this research proposes an edge computing architecture based on virtual organizations and distributed explainable artificial intelligence (XAI) algorithms for optimized energy use in buildings/homes and demand response. Thanks to virtual organizations’ energy efficiency (EE) measures, which consider the inhabitants’ comfort and dynamically learn from real-time inhabitant data, the consumption patterns of the inhabitants are effectively optimized.

QNRF—National Priority Research Program.

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Acknowledgements

This research has been supported by the project “Adaptive and Intelligent Edge Computing based Building Energy Management System” Reference: NPRP13S-0128-200187, financed by Qatar National Research Fund (QNRF).

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Correspondence to Sergio Márquez-Sánchez .

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Márquez-Sánchez, S. et al. (2023). Adaptive and Intelligent Edge Computing Based Building Energy Management System. In: Castillo Ossa, L.F., Isaza, G., Cardona, Ó., Castrillón, O.D., Corchado Rodriguez, J.M., De la Prieta Pintado, F. (eds) Trends in Sustainable Smart Cities and Territories . SSCT 2023. Lecture Notes in Networks and Systems, vol 732. Springer, Cham. https://doi.org/10.1007/978-3-031-36957-5_4

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