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A load-disaggregation framework to sense personalized energy-use information in commercial buildings

Studies indicate that providing building occupants with personalized energy-use feedback effectively triggers energy-use behavior modifications. However, gathering such personalized information in a commercial building using conventional techniques is currently extremely expensive. Accordingly, this...

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Published in:	Energy and buildings 2020-01, Vol.207, p.109633, Article 109633
Main Authors:	Rafsanjani, Hamed Nabizadeh, Moayedi, Sam, Ahn, Changbum R., Alahmad, Mahmoud
Format:	Article
Language:	English
Subjects:	Algorithms Buildings Clustering Commercial building Commercial buildings Data sensing Disaggregation Energy Energy consumption Feasibility Feedback Load disaggregation Occupant energy-use behavior Simulation
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creator	Rafsanjani, Hamed Nabizadeh Moayedi, Sam Ahn, Changbum R. Alahmad, Mahmoud
description	Studies indicate that providing building occupants with personalized energy-use feedback effectively triggers energy-use behavior modifications. However, gathering such personalized information in a commercial building using conventional techniques is currently extremely expensive. Accordingly, this study proposes a novel framework that disaggregates building-wide energy data down to the level of individual occupants by harnessing recurring patterns in occupants’ energy-use behaviors. To achieve such disaggregation, the framework utilizes a density-based clustering algorithm that deciphers patterns amidst occupants’ sensed entry/exit events and the building's corresponding changes in energy-load magnitudes, load-change timings, and energy-use locations. Experimental results of two commercial buildings with an average F-measure of 0.807 and Accuracy of 0.958 demonstrate the feasibility and accuracy of the framework in generating personalized information. By gathering such data in an economically feasible manner, the framework can provide a cost-effective means for individualizing feedback, which has been shown to yield long-term decreases in commercial buildings’ energy consumption.
doi_str_mv	10.1016/j.enbuild.2019.109633
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source	ScienceDirect Freedom Collection 2022-2024
subjects	Algorithms Buildings Clustering Commercial building Commercial buildings Data sensing Disaggregation Energy Energy consumption Feasibility Feedback Load disaggregation Occupant energy-use behavior Simulation
title	A load-disaggregation framework to sense personalized energy-use information in commercial buildings
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