Abstract
This paper studies $ℓ_1$ regularization with high-dimensional features for support vector machines with a built-in reject option (meaning that the decision of classifying an observation can be withheld at a cost lower than that of misclassification). The procedure can be conveniently implemented as a linear program and computed using standard software. We prove that the minimizer of the penalized population risk favors sparse solutions and show that the behavior of the empirical risk minimizer mimics that of the population risk minimizer. We also introduce a notion of classification complexity and prove that our minimizers adapt to the unknown complexity. Using a novel oracle inequality for the excess risk, we identify situations where fast rates of convergence occur.
Citation
Marten Wegkamp. Ming Yuan. "Support vector machines with a reject option." Bernoulli 17 (4) 1368 - 1385, November 2011. https://doi.org/10.3150/10-BEJ320
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