Detail publikace

Algorithm 1017: fuzzyreg: An R Package for Fitting Fuzzy Regression Models

ŠKRABÁNEK, P. MARTÍNKOVÁ, N.

Anglický název

Algorithm 1017: fuzzyreg: An R Package for Fitting Fuzzy Regression Models

Typ

článek v časopise ve Web of Science, Jimp

Jazyk

en

Originální abstrakt

Fuzzy regression provides an alternative to statistical regression when the model is indefinite, the relationships between model parameters are vague, the sample size is low, or the data are hierarchically structured. Such cases allow to consider the choice of a regression model based on the fuzzy set theory. In fuzzyreg, we implement fuzzy linear regression methods that differ in the expectations of observational data types, outlier handling, and parameter estimation method. We provide a wrapper function that prepares data for fitting fuzzy linear models with the respective methods from a syntax established in R for fitting regression models. The function fuzzylm thus provides a novel functionality for R through standardized operations with fuzzy numbers. Additional functions allow for conversion of real-value variables to be fuzzy numbers, printing, summarizing, model plotting, and calculation of model predictions from new data using supporting functions that perform arithmetic operations with triangular fuzzy numbers. Goodness of fit and total error of the fit measures allow model comparisons. The package contains a dataset named bats with measurements of temperatures of hibernating bats and the mean annual surface temperature reflecting the climate at the sampling sites. The predictions from fuzzy linear models fitted to this dataset correspond well to the observed biological phenomenon. Fuzzy linear regression has great potential in predictive modeling where the data structure prevents statistical analysis and the modeled process exhibits inherent fuzziness.

Anglický abstrakt

Fuzzy regression provides an alternative to statistical regression when the model is indefinite, the relationships between model parameters are vague, the sample size is low, or the data are hierarchically structured. Such cases allow to consider the choice of a regression model based on the fuzzy set theory. In fuzzyreg, we implement fuzzy linear regression methods that differ in the expectations of observational data types, outlier handling, and parameter estimation method. We provide a wrapper function that prepares data for fitting fuzzy linear models with the respective methods from a syntax established in R for fitting regression models. The function fuzzylm thus provides a novel functionality for R through standardized operations with fuzzy numbers. Additional functions allow for conversion of real-value variables to be fuzzy numbers, printing, summarizing, model plotting, and calculation of model predictions from new data using supporting functions that perform arithmetic operations with triangular fuzzy numbers. Goodness of fit and total error of the fit measures allow model comparisons. The package contains a dataset named bats with measurements of temperatures of hibernating bats and the mean annual surface temperature reflecting the climate at the sampling sites. The predictions from fuzzy linear models fitted to this dataset correspond well to the observed biological phenomenon. Fuzzy linear regression has great potential in predictive modeling where the data structure prevents statistical analysis and the modeled process exhibits inherent fuzziness.

Klíčová slova anglicky

Fuzzy regression; fuzzy set; possibilistic-based fuzzy regression; statistics-based fuzzy regression; R

Vydáno

26.06.2021

Nakladatel

ASSOC COMPUTING MACHINERY

Místo

NEW YORK

ISSN

0098-3500

Ročník

47

Číslo

3

Strany od–do

1–18

Počet stran

18

BIBTEX


@article{BUT171969,
  author="Pavel {Škrabánek} and Natália {Martínková},
  title="Algorithm 1017: fuzzyreg: An R Package for Fitting Fuzzy Regression Models",
  year="2021",
  volume="47",
  number="3",
  month="June",
  pages="1--18",
  publisher="ASSOC COMPUTING MACHINERY",
  address="NEW YORK",
  issn="0098-3500"
}