Luis Carlos Molina scite author profile

Abstract-Many data mining and machine learning algorithms require databases in which objects are described by discrete attributes. However, it is very common that the attributes are in the ratio or interval scales. In order to apply these algorithms, the original attributes must be transformed into the nominal or ordinal scale via discretization. An appropriate transformation is crucial because of the large influence on the results obtained from data mining procedures. This paper presents a hybrid technique for the simultaneous supervised discretization of continuous attributes, based on Evolutionary Algorithms, in particular, Evolution Strategies (ES), which is combined with Rough Set Theory and Information Theory. The purpose is to construct a discretization scheme for all continuous attributes simultaneously (i.e. global) in such a way that class predictability is maximized w.r.t the discrete classes generated for the predictor variables. The ES approach is applied to 17 public data sets and the results are compared with classical discretization methods. ES-based discretization not only outperforms these methods, but leads to much simpler data models and is able to discover irrelevant attributes. These features are not present in classical discretization techniques.

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Behavior analysis of fractal features for texture description in digital images: an experimental study

Valdés

Molina

Espinosa

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Luis Carlos Molina

Feature selection algorithms: a survey and experimental evaluation

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An evolution strategies approach to the simultaneous discretization of numeric attributes in data mining

Behavior analysis of fractal features for texture description in digital images: an experimental study

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