An evaluation of support vector machines for cost-sensitive learning

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IEEE

Erscheinungsjahr:

2006

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Text

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The problem of cost-sensitive learning involves classification analysis in scenarios where different error types are associated with asymmetric misclassification costs. Business applications and problems of medical diagnosis are prominent examples and pattern recognitions techniques are routinely used to support decision making within these fields. In particular, support vector machines (SVMs) have been successfully applied, e.g. to evaluate customer credit worthiness in credit scoring or detect tumorous cells in bio-molecular data analysis. However, ordinary SVMs minimize a continuous approximation for the classification error giving similar importance to each error type. While several modifications have been proposed to make SVMs cost-sensitive the impact of the approximate error measurement is normally not considered. Recently, Orsenigo and Vercellis introduced a discrete SVM (DSVM) formulation [1] that minimize misclassification errors directly and overcomes possible limitations of an error proxy. For example, DSVM facilitates explicit cost minimization so that this technique is a promising candidate for cost-sensitive learning. Consequently, we compare DSVM with a standard procedure for cost-sensitive SVMs and investigate to what extent improvements in terms of misclassification costs are achievable. While the standard SVM performs remarkably well DSVM is found to give yet superior results. © 2006 IEEE.

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Forschungsinformationssystem der UHH

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Quelldatensatz: oai:www.edit.fis.uni-hamburg.de:publications/24182085-9ac4-444c-92b0-39bc365b549b