Sample compression schemes for balls in graphs
Abstract
One of the open problems in machine learning is whether any set-family of VC-dimension admits a sample compression scheme of size . In this paper, we study this problem for balls in graphs. For a ball of a graph , a realizable sample for is a signed subset of such that contains and is disjoint from . A proper sample compression scheme of size consists of a compressor and a reconstructor. The compressor maps any realizable sample to a subsample of size at most . The reconstructor maps each such subsample to a ball of such that includes and is disjoint from . For balls of arbitrary radius , we design proper labeled sample compression schemes of size for trees, of size for cycles, of size for interval graphs, of size for trees of cycles, and of size for cube-free median graphs. For balls of a given radius, we design proper labeled sample compression schemes of size for trees and of size for interval graphs. We also design approximate sample compression schemes of size 2 for balls of -hyperbolic graphs.
Keywords
Cite
@article{arxiv.2206.13254,
title = {Sample compression schemes for balls in graphs},
author = {Jérémie Chalopin and Victor Chepoi and Fionn Mc Inerney and Sébastien Ratel and Yann Vaxès},
journal= {arXiv preprint arXiv:2206.13254},
year = {2024}
}
Comments
27 pages, 8 figures