Upper and lower approximation models in interval regression using regression quantile techniques

Upper and lower approximation models in interval regression using regression quantile techniques

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Article ID: iaor20002547
Country: Netherlands
Volume: 116
Issue: 3
Start Page Number: 653
End Page Number: 666
Publication Date: Aug 1999
Journal: European Journal of Operational Research
Authors: ,
Keywords: programming: linear
Abstract:

In this paper, we propose new interval regression analysis based on the regression quantile techniques. To analyze a phenomenon in a fuzzy environment, we propose two interval approximation models. Without using all data, we first identify the main trend from the designated proportion of the given data. To select the main part of data to be analyzed, we introduce the regression quantile techniques. The obtained model is not influenced by extreme points since it is formulated from the center-located main proportion of the given data. After that, the interval regression model including all data can be identified based on the acquired main trend. The obtained interval regression model by the main proportion of the given data is called the lower approximation model, while interval regression model by all data is called the upper approximation model for the given phenomenon. Also it is shown that, from the lower approximation model (main trend) and the upper approximation model, we can construct a trapezoidal fuzzy model. The membership function of this fuzzy model is useful to obtain the locational information for each observation. The characteristic of our approach can be described as obtaining the upper and lower approximation models and combining them to be a fuzzy model for representing the given phenomenon in a fuzzy environment.

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