Evidence optimization for consequently generated models
Copyright policy )Evidence optimization for consequently generated models
Abstract To construct an adequate regression model one has to fulfill the set of measured features with their generated derivatives. Often the number of these features exceeds the number of the samples in the data set. After a feature generation process the problem of feature selection from a set of highly correlated features arises. The proposed algorithm uses an evidence maximization procedure to select a model as a subset of generated features. During the selection process it rejects multicollinear features. A problem of European option volatility modeling illustrates the algorithm. Its performance is compared with the performances of similar well-known algorithms.
- Russian Academy of Sciences Russian Federation
- Middle East Technical University Turkey
Model evidence, Feature generation, Modelling and Simulation, European option volatility, Multicollinearity, Model selection, Computer Science Applications
Model evidence, Feature generation, Modelling and Simulation, European option volatility, Multicollinearity, Model selection, Computer Science Applications
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