On the selection of significant variables in a model for the deteriorating process of facades
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2017Resumen
In previous works the authors of this paper have introduced a predictive system that uses survival analysis techniques for the study of time-To-failure in the facades of a building stock. The approach is population based, in order to obtain information on the evolution of the stock across time, and to help the manager in the decision making process on global maintenance strategies. For the decision making it is crutial to determine those covariates-like materials, morphology and characteristics of the facade, orientation or environmental conditions-that play a significative role in the progression of different failures. The proposed platform also incorporates an open source GIS plugin that includes survival and test moduli that allow the investigator to model the time until a lesion taking into account the variables collected during the inspection process. The aim of this paper is double: A) to shortly introduce the predictive system, as well as the inspection and the analysis methodologies and b) to introduce and illustrate the modeling strategy for the deteriorating process of an urban front. The illustration will be focused on the city of L'Hospitalet de Llobregat (Barcelona, Spain) in which more than 14,000 facades have been inspected and analyzed. © Published under licence by IOP Publishing Ltd.
In previous works the authors of this paper have introduced a predictive system that uses survival analysis techniques for the study of time-To-failure in the facades of a building stock. The approach is population based, in order to obtain information on the evolution of the stock across time, and to help the manager in the decision making process on global maintenance strategies. For the decision making it is crutial to determine those covariates-like materials, morphology and characteristics of the facade, orientation or environmental conditions-that play a significative role in the progression of different failures. The proposed platform also incorporates an open source GIS plugin that includes survival and test moduli that allow the investigator to model the time until a lesion taking into account the variables collected during the inspection process. The aim of this paper is double: A) to shortly introduce the predictive system, as well as the inspection and the analysis methodologies and b) to introduce and illustrate the modeling strategy for the deteriorating process of an urban front. The illustration will be focused on the city of L'Hospitalet de Llobregat (Barcelona, Spain) in which more than 14,000 facades have been inspected and analyzed. © Published under licence by IOP Publishing Ltd.





