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Updating the abstract to match the abstract in the paper. 
- from author Chenghao Guo
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calcudimen authored Sep 17, 2024
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title: Thresholds for Reconstruction of Random Hypergraphs From Graph Projections
section: Original Papers
abstract: 'The graph projection of a hypergraph is a simple graph with the same vertex
set and with an edge between each pair of vertices that appear in a hyperedge. We
consider the problem of reconstructing a random $d$-uniform hypergraph from its
projection. Feasibility of this task depends on $d$ and the density of hyperedges
in the random hypergraph. For $d=3$ we precisely determine the threshold, while
for $d\geq 4$ we give bounds. All of our feasibility results are obtained by exhibiting
an efficient algorithm for reconstructing the original hypergraph, while infeasibility
is information-theoretic. Our results also apply to mildly inhomogeneous random
hypergrahps, including hypergraph stochastic block models. A consequence of our
results is that claims from the 2023 COLT paper gaudio’23 are disproved. '
abstract: 'The graph projection of a hypergraph is a simple graph with the same vertex set and with an edge between each pair of vertices that appear in a hyperedge. We consider the problem of reconstructing a random d-uniform hypergraph from its projection. Feasibility of this task depends on d and the density of hyperedges in the random hypergraph. For $d =3$ we precisely determine the threshold, while for $d\ge 4$ we give bounds. All of our feasibility results are obtained by exhibiting an efficient algorithm for reconstructing the original hypergraph, while infeasibility is information-theoretic. Our results also apply to mildly inhomogeneous random hypergrahps, including hypergraph stochastic block models (HSBM). A consequence of our results is an optimal HSBM recovery algorithm, improving on Gaudio and Joshi (2023a). '
layout: inproceedings
series: Proceedings of Machine Learning Research
publisher: PMLR
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