Occupancy Detection in a Building Using Hybrid Models

IF 0.7 Q4 COMPUTER SCIENCE, INFORMATION SYSTEMS Jordan Journal of Electrical Engineering Pub Date : 2023-01-01 DOI:10.5455/jjee.204-1669195686
L. Sahoo, M. Ray, B. Ganthia
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Abstract

Buildings consume over 40% of the world’s total energy supply, and their occupancy is increasingly recognized as a major performance indicator due to its effect on a building’s energy costs and occupant satisfaction. In this paper, a hybrid model is created to estimate future loads of a building with high efficiency and accuracy. The proposed model is composed of two - connected in a cascade - artificial neural networks, where the outcomes of the first network are fed into the second one, which in its turn performs the load forecasts. A pre-existing dataset is used to verify the proposed model and to test a variety of training set sizes. Analysis of the results is executed by taking six pair of combinations separately for both open door and closed door fault cases. In this analysis, cascaded back propagation and Elman back propagation method - among the rest of the analyzed methods – is found to give the best accuracy, i.e, 97.2% - 97.9%, which indicates that the suggested hybrid technique is more accurate than the existing non-hybrid methods.
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使用混合模型的建筑物占用检测
建筑物消耗了世界总能源供应的40%以上,由于其对建筑物的能源成本和居住者满意度的影响,其占用率越来越被认为是一个主要的绩效指标。本文建立了一种高效、准确的建筑物未来荷载估算混合模型。该模型由两个级联的人工神经网络组成,其中第一个网络的结果被馈送到第二个网络,第二个网络再进行负荷预测。使用预先存在的数据集来验证所提出的模型并测试各种训练集大小。对开门故障和闭门故障分别取6对组合进行结果分析。在本文分析的方法中,级联反向传播法和Elman反向传播法的精度最高,为97.2% ~ 97.9%,表明本文提出的杂交方法比现有的非杂交方法精度更高。
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CiteScore
0.20
自引率
14.30%
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0
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