Random subclass bounds
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Mendelson, Shahar
Philips, Petra
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It has been recently shown that sharp generalization bounds can be obtained when the function class from which the algorithm chooses its hypotheses is "small" in the sense that the Rademacher averages of this function class are small. Seemingly based on different arguments, generalization bounds were obtained in the compression scheme, luckiness, and algorithmic luckiness frameworks in which the "size" of the function class is not specified a priori. We show that the bounds obtained in all these frameworks follow from the same general principle, namely that coordinate projections of this function subclass evaluated on random samples are "small" with high probability.
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Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics)
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