Approximations of Bayes Classifiers for Statistical Learning of Clusters

Ekdahl, Magnus

January 2006

<p>It is rarely possible to use an optimal classifier. Often the classifier used for a specific problem is an approximation of the optimal classifier. Methods are presented for evaluating the performance of an approximation in the model class of Bayesian Networks. Specifically for the approximation of class conditional independence a bound for the performance is sharpened.</p><p>The class conditional independence approximation is connected to the minimum description length principle (MDL), which is connected to Jeffreys’ prior through commonly used assumptions. One algorithm for unsupervised classification is presented and compared against other unsupervised classifiers on three data sets.</p> / Report code: LiU-TEK-LIC 2006:11.

Pattern Recognition

Stochastic Complexity

Naïve Bayes

Bayesian Network

Classification

Clustering

Chow-Liu trees

Mathematical statistics

Matematisk statistik

Approximations of Bayes Classifiers for Statistical Learning of Clusters

Ekdahl, Magnus

January 2006

It is rarely possible to use an optimal classifier. Often the classifier used for a specific problem is an approximation of the optimal classifier. Methods are presented for evaluating the performance of an approximation in the model class of Bayesian Networks. Specifically for the approximation of class conditional independence a bound for the performance is sharpened. The class conditional independence approximation is connected to the minimum description length principle (MDL), which is connected to Jeffreys’ prior through commonly used assumptions. One algorithm for unsupervised classification is presented and compared against other unsupervised classifiers on three data sets. / <p>Report code: LiU-TEK-LIC 2006:11.</p>

Pattern Recognition

Stochastic Complexity

Naïve Bayes

Bayesian Network

Classification

Clustering

Chow-Liu trees

Probability Theory and Statistics

Sannolikhetsteori och statistik