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Non-adaptive Learning of Random Hypergraphs with Queries

Information Theory 2025-01-23 v1 Discrete Mathematics Data Structures and Algorithms Machine Learning math.IT Machine Learning

Abstract

We study the problem of learning a hidden hypergraph G=(V,E)G=(V,E) by making a single batch of queries (non-adaptively). We consider the hyperedge detection model, in which every query must be of the form: ``Does this set SVS\subseteq V contain at least one full hyperedge?'' In this model, it is known that there is no algorithm that allows to non-adaptively learn arbitrary hypergraphs by making fewer than Ω(min{m2logn,n2})\Omega(\min\{m^2\log n, n^2\}) even when the hypergraph is constrained to be 22-uniform (i.e. the hypergraph is simply a graph). Recently, Li et al. overcame this lower bound in the setting in which GG is a graph by assuming that the graph learned is sampled from an Erd\H{o}s-R\'enyi model. We generalize the result of Li et al. to the setting of random kk-uniform hypergraphs. To achieve this result, we leverage a novel equivalence between the problem of learning a single hyperedge and the standard group testing problem. This latter result may also be of independent interest.

Keywords

Cite

@article{arxiv.2501.12771,
  title  = {Non-adaptive Learning of Random Hypergraphs with Queries},
  author = {Bethany Austhof and Lev Reyzin and Erasmo Tani},
  journal= {arXiv preprint arXiv:2501.12771},
  year   = {2025}
}
R2 v1 2026-06-28T21:13:24.257Z