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Article type: Research Article
Authors: Garcia, Luís P.F.a; * | Rivolli, Adrianob | Alcoba, Edesioc | Lorena, Ana C.d | de Carvalho, André C.P.L.F.c
Affiliations: [a] Department of Computer Science, University of Brasília, Brasília, Brazil | [b] Computing Department, Technological University of Paraná, Paraná, Brazil | [c] Institute of Mathematical and Computer Sciences, University of São Paulo, São Paulo, Brazil | [d] Aeronautics Institute of Technology, Praça Marechal Eduardo Gomes, São Paulo, Brazil
Correspondence: [*] Corresponding author: Luís P.F. Garcia, Department of Computer Science, University of Brasilia, Asa Norte, Brasília, Distrito Federal 70910-900, Brazil. E-mail: [email protected].
Abstract: Meta-Learning has been largely used over the last years to support the recommendation of the most suitable machine learning algorithm(s) and hyperparameters for new datasets. Traditionally, a meta-base is created containing meta-features extracted from several datasets along with the performance of a pool of machine learning algorithms when applied to these datasets. The meta-features must describe essential aspects of the dataset and distinguish different problems and solutions. However, if one wants the use of Meta-Learning to be computationally efficient, the extraction of the meta-feature values should also show a low computational cost, considering a trade-off between the time spent to run all the algorithms and the time required to extract the meta-features. One class of measures with successful results in the characterization of classification datasets is concerned with estimating the underlying complexity of the classification problem. These data complexity measures take into account the overlap between classes imposed by the feature values, the separability of the classes and distribution of the instances within the classes. However, the extraction of these measures from datasets usually presents a high computational cost. In this paper, we propose an empirical approach designed to decrease the computational cost of computing the data complexity measures, while still keeping their descriptive ability. The proposal consists of a novel Meta-Learning system able to predict the values of the data complexity measures for a dataset by using simpler meta-features as input. In an extensive set of experiments, we show that the predictive performance achieved by Meta-Learning systems which use the predicted data complexity measures is similar to the performance obtained using the original data complexity measures, but the computational cost involved in their computation is significantly reduced.
Keywords: Meta-learning, meta-features, complexity measures
DOI: 10.3233/IDA-194803
Journal: Intelligent Data Analysis, vol. 24, no. 5, pp. 1011-1028, 2020
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