A data-mining approach to discover patterns of window opening and closing behavior in offices

Understanding the relationship between occupant behaviors and building energy consumption is one of the most effective ways to bridge the gap between predicted and actual energy consumption in buildings. However effective methodologies to remove the impact of other variables on building energy consu...

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Veröffentlicht in:	Building and environment 2014-12, Vol.82 (C), p.726-739
Hauptverfasser:	D'Oca, Simona, Hong, Tianzhen
Format:	Artikel
Sprache:	eng
Schlagworte:	Applied sciences Behavioral pattern Buildings Buildings. Public works Clustering Commercial building Computation methods. Tables. Charts Construction Data mining Energy consumption Energy use Exact sciences and technology External envelopes Mathematical models Occupant behavior Office buildings Offices Opening. Closure. Circulation (stairs, etc.) Sociology. Ergonomy. User requirements Structural analysis. Stresses Types of buildings Window closing Window opening
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creator	D'Oca, Simona Hong, Tianzhen
description	Understanding the relationship between occupant behaviors and building energy consumption is one of the most effective ways to bridge the gap between predicted and actual energy consumption in buildings. However effective methodologies to remove the impact of other variables on building energy consumption and isolate the leverage of the human factor precisely are still poorly investigated. Moreover, the effectiveness of statistical and data mining approaches in finding meaningful correlations in data is largely undiscussed in literature. This study develops a framework combining statistical analysis with two data-mining techniques, cluster analysis and association rules mining, to identify valid window operational patterns in measured data. Analyses are performed on a data set with measured indoor and outdoor physical parameters and human interaction with operable windows in 16 offices. Logistic regression was first used to identify factors influencing window opening and closing behavior. Clustering procedures were employed to obtain distinct behavioral patterns, including motivational, opening duration, interactivity and window position patterns. Finally the clustered patterns constituted a base for association rules segmenting the window opening behaviors into two archetypal office user profiles for which different natural ventilation strategies as well as robust building design recommendations that may be appropriate. Moreover, discerned working user profiles represent more accurate input to building energy modeling programs, to investigate the impacts of typical window opening behavior scenarios on energy use, thermal comfort and productivity in office buildings. •Data mining is a powerful tool to identify behavioral patterns in building data sets.•Clustering is employed to obtain distinct window operation behavioral patterns.•Motivational, opening duration, interactivity and window position patterns are highlighted.•Association rules identify archetypal user profiles in offices of the same building.•Discerned user profiles represent robust inputs to building energy modeling programs.
doi_str_mv	10.1016/j.buildenv.2014.10.021
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However effective methodologies to remove the impact of other variables on building energy consumption and isolate the leverage of the human factor precisely are still poorly investigated. Moreover, the effectiveness of statistical and data mining approaches in finding meaningful correlations in data is largely undiscussed in literature. This study develops a framework combining statistical analysis with two data-mining techniques, cluster analysis and association rules mining, to identify valid window operational patterns in measured data. Analyses are performed on a data set with measured indoor and outdoor physical parameters and human interaction with operable windows in 16 offices. Logistic regression was first used to identify factors influencing window opening and closing behavior. Clustering procedures were employed to obtain distinct behavioral patterns, including motivational, opening duration, interactivity and window position patterns. 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Moreover, discerned working user profiles represent more accurate input to building energy modeling programs, to investigate the impacts of typical window opening behavior scenarios on energy use, thermal comfort and productivity in office buildings. •Data mining is a powerful tool to identify behavioral patterns in building data sets.•Clustering is employed to obtain distinct window operation behavioral patterns.•Motivational, opening duration, interactivity and window position patterns are highlighted.•Association rules identify archetypal user profiles in offices of the same building.•Discerned user profiles represent robust inputs to building energy modeling programs.</description><subject>Applied sciences</subject><subject>Behavioral pattern</subject><subject>Buildings</subject><subject>Buildings. Public works</subject><subject>Clustering</subject><subject>Commercial building</subject><subject>Computation methods. Tables. 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subjects	Applied sciences Behavioral pattern Buildings Buildings. Public works Clustering Commercial building Computation methods. Tables. Charts Construction Data mining Energy consumption Energy use Exact sciences and technology External envelopes Mathematical models Occupant behavior Office buildings Offices Opening. Closure. Circulation (stairs, etc.) Sociology. Ergonomy. User requirements Structural analysis. Stresses Types of buildings Window closing Window opening
title	A data-mining approach to discover patterns of window opening and closing behavior in offices
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