Power Management in Smart Residential Building with Deep Learning Model for Occupancy Detection by Usage Pattern of Electric Appliances

With the growth of smart building applications, occupancy information in residential buildings is becoming more and more significant. In the context of the smart buildings' paradigm, this kind of information is required for a wide range of purposes, including enhancing energy efficiency and occ...

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Veröffentlicht in:	arXiv.org 2022-09
Hauptverfasser:	Lee, Sangkeum, Sarvar Hussain Nengroo, Jin, Hojun, Doh, Yoonmee, Lee, Chungho, Heo, Taewook, Har, Dongsoo
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Sprache:	eng
Schlagworte:	Algorithms Datasets Deep learning Electric appliances Households Machine learning Mathematical analysis Occupancy Power consumption Power management Principal components analysis Residential buildings Smart buildings Support vector machines Technical information
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description	With the growth of smart building applications, occupancy information in residential buildings is becoming more and more significant. In the context of the smart buildings' paradigm, this kind of information is required for a wide range of purposes, including enhancing energy efficiency and occupant comfort. In this study, occupancy detection in residential building is implemented using deep learning based on technical information of electric appliances. To this end, a novel approach of occupancy detection for smart residential building system is proposed. The dataset of electric appliances, sensors, light, and HVAC, which is measured by smart metering system and is collected from 50 households, is used for simulations. To classify the occupancy among datasets, the support vector machine and autoencoder algorithm are used. Confusion matrix is utilized for accuracy, precision, recall, and F1 to demonstrate the comparative performance of the proposed method in occupancy detection. The proposed algorithm achieves occupancy detection using technical information of electric appliances by 95.7~98.4%. To validate occupancy detection data, principal component analysis and the t-distributed stochastic neighbor embedding (t-SNE) algorithm are employed. Power consumption with renewable energy system is reduced to 11.1~13.1% in smart buildings by using occupancy detection.
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subjects	Algorithms Datasets Deep learning Electric appliances Households Machine learning Mathematical analysis Occupancy Power consumption Power management Principal components analysis Residential buildings Smart buildings Support vector machines Technical information
title	Power Management in Smart Residential Building with Deep Learning Model for Occupancy Detection by Usage Pattern of Electric Appliances
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