Local Borsuk-Ulam, Stability, and Replicability
Pages 1769 - 1780
Abstract
We use and adapt the Borsuk-Ulam Theorem from topology to derive limitations on list-replicable and globally stable learning algorithms. We further demonstrate the applicability of our methods in combinatorics and topology. We show that, besides trivial cases, both list-replicable and globally stable learning are impossible in the agnostic PAC setting. This is in contrast with the realizable case where it is known that any class with a finite Littlestone dimension can be learned by such algorithms. In the realizable PAC setting, we sharpen previous impossibility results and broaden their scope. Specifically, we establish optimal bounds for list replicability and global stability numbers in finite classes. This provides an exponential improvement over previous works and implies an exponential separation from the Littlestone dimension. We further introduce lower bounds for weak learners, i.e., learners that are only marginally better than random guessing. Lower bounds from previous works apply only to stronger learners. To offer a broader and more comprehensive view of our topological approach, we prove a local variant of the Borsuk-Ulam theorem in topology and a result in combinatorics concerning Kneser colorings. In combinatorics, we prove that if c is a coloring of all non-empty subsets of [n] such that disjoint sets have different colors, then there is a chain of subsets that receives at least 1+ ⌊ n/2⌋ colors (this bound is sharp). In topology, we prove e.g. that for any open antipodal-free cover of the d-dimensional sphere, there is a point x that belongs to at least t=⌈d+3/2⌉ sets.
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Index Terms
- Local Borsuk-Ulam, Stability, and Replicability
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June 2024
2049 pages
ISBN:9798400703836
DOI:10.1145/3618260
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Published: 11 June 2024
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- European Research Council
- Israel Science Foundation
- Villum Fonden
- Pioneer Fund
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