English

Dense, irregular, yet always graphic $3$-uniform hypergraph degree sequences

Combinatorics 2023-12-04 v1 Discrete Mathematics

Abstract

A 33-uniform hypergraph is a generalization of simple graphs where each hyperedge is a subset of vertices of size 33. The degree of a vertex in a hypergraph is the number of hyperedges incident with it. The degree sequence of a hypergraph is the sequence of the degrees of its vertices. The degree sequence problem for 33-uniform hypergraphs is to decide if a 33-uniform hypergraph exists with a prescribed degree sequence. Such a hypergraph is called a realization. Recently, Deza \emph{et al.} proved that the degree sequence problem for 33-uniform hypergraphs is NP-complete. Some special cases are easy; however, polynomial algorithms have been known so far only for some very restricted degree sequences. The main result of our research is the following. If all degrees are between 2n263+O(n)\frac{2n^2}{63}+O(n) and 5n263O(n)\frac{5n^2}{63}-O(n) in a degree sequence DD, further, the number of vertices is at least 4545, and the degree sum can be divided by 33, then DD has a 33-uniform hypergraph realization. Our proof is constructive and in fact, it constructs a hypergraph realization in polynomial time for any degree sequence satisfying the properties mentioned above. To our knowledge, this is the first polynomial running time algorithm to construct a 33-uniform hypergraph realization of a highly irregular and dense degree sequence.

Keywords

Cite

@article{arxiv.2312.00555,
  title  = {Dense, irregular, yet always graphic $3$-uniform hypergraph degree sequences},
  author = {Runze Li and Istvan Miklos},
  journal= {arXiv preprint arXiv:2312.00555},
  year   = {2023}
}
R2 v1 2026-06-28T13:38:20.400Z