论文信息 - Weighted Classification Cascades for Optimizing Discovery Significance in the HiggsML Challenge

Weighted Classification Cascades for Optimizing Discovery Significance in the HiggsML Challenge

We introduce a minorization-maximization approach to optimizing common measures of discovery significance in high energy physics. The approach alternates between solving a weighted binary classification problem and updating class weights in a simple, closed-form manner. Moreover, an argument based on convex duality shows that an improvement in weighted classification error on any round yields a commensurate improvement in discovery significance. We complement our derivation with experimental results from the 2014 Higgs boson machine learning challenge.

Lester Mackey | Jordan Bryan | Man Yue Mo

[1] D. Hunter,et al. Optimization Transfer Using Surrogate Objective Functions , 2000 .

[2] I. Guyon,et al. Learning to discover: the Higgs boson machine learning challenge , 2014 .

[3] Igor Vajda,et al. On Divergences and Informations in Statistics and Information Theory , 2006, IEEE Transactions on Information Theory.

[4] Michael A. Lexa,et al. Quantization via Empirical Divergence Maximization , 2011, IEEE Transactions on Signal Processing.

[5] K. Cranmer,et al. Asymptotic formulae for likelihood-based tests of new physics , 2010, 1007.1727.

[6] J. Borwein,et al. Convex Analysis And Nonlinear Optimization , 2000 .

[7] Martin J. Wainwright,et al. Estimating Divergence Functionals and the Likelihood Ratio by Convex Risk Minimization , 2008, IEEE Transactions on Information Theory.