A nonnegative integer sequence is k-graphic if it is the degree sequence of a k-uniform simple hypergraph. The problem of deciding whether a given sequence π is 3-graphic has recently been proved to be NP-complete, after years of studies. Thus, it acquires primary relevance to detect classes of degree sequences whose graphicality can be tested in polynomial time in order to restrict the NP-hard core of the problem and design algorithms that can also be useful in different research areas. Several necessary and few sufficient conditions for π to be k-graphic, with k≥ 3 , appear in the literature. Frosini et al. defined a polynomial time algorithm to reconstruct k-uniform hypergraphs having regular or almost regular degree sequences. Our study fits in this research line providing a combinatorial characterization of span-two sequences, i.e., sequences of the form π= (d, … , d, d- 1 , … , d- 1 , d- 2 , … , d- 2 ) , d≥ 2 , which are degree sequences of some 3-uniform hypergraphs. Then, we define a polynomial time algorithm to reconstruct one of the related 3-uniform hypergraphs. Our results are likely to be easily generalized to k≥ 4 and to other families of degree sequences having simple characterization, such as gap-free sequences.
Palma, G., Frosini, A., Rinaldi, S. (2022). On the Reconstruction of 3-Uniform Hypergraphs from Degree Sequences of Span-Two. JOURNAL OF MATHEMATICAL IMAGING AND VISION, 64(7), 693-704 [10.1007/s10851-022-01074-2].
On the Reconstruction of 3-Uniform Hypergraphs from Degree Sequences of Span-Two
Palma G.
;Rinaldi S.
2022-01-01
Abstract
A nonnegative integer sequence is k-graphic if it is the degree sequence of a k-uniform simple hypergraph. The problem of deciding whether a given sequence π is 3-graphic has recently been proved to be NP-complete, after years of studies. Thus, it acquires primary relevance to detect classes of degree sequences whose graphicality can be tested in polynomial time in order to restrict the NP-hard core of the problem and design algorithms that can also be useful in different research areas. Several necessary and few sufficient conditions for π to be k-graphic, with k≥ 3 , appear in the literature. Frosini et al. defined a polynomial time algorithm to reconstruct k-uniform hypergraphs having regular or almost regular degree sequences. Our study fits in this research line providing a combinatorial characterization of span-two sequences, i.e., sequences of the form π= (d, … , d, d- 1 , … , d- 1 , d- 2 , … , d- 2 ) , d≥ 2 , which are degree sequences of some 3-uniform hypergraphs. Then, we define a polynomial time algorithm to reconstruct one of the related 3-uniform hypergraphs. Our results are likely to be easily generalized to k≥ 4 and to other families of degree sequences having simple characterization, such as gap-free sequences.File | Dimensione | Formato | |
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https://hdl.handle.net/11365/1221418