Yu Zhao scite author profile

This paper reports the development of a building energy demand predictive model based on the decision tree method. The developed model estimates the building energy performance indexes in a rapid and easy way. This method is appropriate to classify and predict categorical variables: its competitive advantage over other widely used modeling techniques, such as regression method and ANN method, lies in the ability to generate accurate predictive models with interpretable flowchart-like tree structures that enable users to quickly extract useful information. To demonstrate its applicability, the method is applied to estimate residential building energy performance indexes by modeling building energy use intensity (EUI) levels (either high or low). The results demonstrate that the use of decision tree method can classify and predict building energy demand levels accurately (93% for training data and 92% for test data), identify and rank significant factors of building EUI automatically. The method can provide the combination of significant factors as well as the threshold values that will lead to high building energy performance. Moreover, the average EUI value of data records in each classified data subsets can be used for reference when performing prediction. The outcomes of this methodology could benefit architects, building designers and owners greatly in the building design and operation stage. One crucial benefit is improving building energy performance and reducing energy consumption. Another advantage of this methodology is that it can be utilized by users without requiring much computation knowledge.

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A systematic procedure to study the influence of occupant behavior on building energy consumption

Zhao

Fung

Haghighat

et al. 2011

Energy and Buildings

493

167

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Efforts have been devoted to the identification of the impacts of occupant behavior on building energy consumption. Various factors influence building energy consumption at the same time, leading to the lack of precision when identifying the individual effects of occupant behavior. This paper reports the development of a new methodology for examining the influences of occupant behavior on building energy consumption; the method is based on a basic data mining technique (cluster analysis). To deal with data inconsistencies, min-max normalization is performed as a data preprocessing step before clustering. Grey relational grades, a measure of relevancy between two factors, are used as weighted coefficients of different attributes in cluster analysis. To demonstrate the applicability of the proposed method, the method was applied to a set of residential buildings' measurement data. The results show that the method facilitates the evaluation of building energy-saving potential by improving the behavior of building occupants, and provides multifaceted insights into building energy end-use patterns associated with the occupant behavior. The results obtained could help prioritize efforts at modification of occupant behavior in order to reduce building energy consumption, and help improve modeling of occupant behavior in numerical simulation.

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A review on macro-encapsulated phase change material for building envelope applications

Liu

Zhao

Yang

et al. 2018

Building and Environment

246

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Hybrid preventive maintenance of competing failures under random environment

Yang

Zhao

Peng

et al. 2018

Reliability Engineering & System Safety

133

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A preventive maintenance policy based on dependent two-stage deterioration and external shocks

Yang

Peng

et al. 2017

Reliability Engineering & System Safety

103

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Yu Zhao

A decision tree method for building energy demand modeling

A systematic procedure to study the influence of occupant behavior on building energy consumption

A review on macro-encapsulated phase change material for building envelope applications

Hybrid preventive maintenance of competing failures under random environment

A preventive maintenance policy based on dependent two-stage deterioration and external shocks

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