Extremal values of degree-based entropies of bipartite graphs

Stijn Cambie; Yanni Dong; Matteo Mazzamurro

doi:10.1016/j.ins.2024.120737

Extremal values of degree-based entropies of bipartite graphs

Stijn Cambie, Yanni Dong^*, Matteo Mazzamurro

^*Corresponding author for this work

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Abstract

We characterize the bipartite graphs that minimize the (first degree-based) entropy among all bipartite graphs of given size. For bipartite graphs given size and (upper bound on the) order, we give a lower bound for this entropy. The extremal graphs turn out to be complete bipartite graphs, or nearly complete bipartite. Here we make use of an equivalent representation of bipartite graphs by means of Young diagrams, which make it easier to compare the entropy of related graphs. We conclude that the general characterization of the extremal graphs is a difficult problem, due to its connections with number theory. However, it is easier to identify them for particular values of the order n and size m because we have narrowed down the possible extremal graphs. We indicate that some of our ideas extend to other degree-based topological indices as well.

Original language	English
Article number	120737
Journal	Information sciences
Volume	676
Early online date	13 May 2024
DOIs	https://doi.org/10.1016/j.ins.2024.120737
Publication status	Published - Aug 2024

Keywords

UT-Hybrid-D
Chemical index
Degree-based entropy
Extremal graphs
Number theory
Young diagrams
Bipartite graphs

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10.1016/j.ins.2024.120737

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title = "Extremal values of degree-based entropies of bipartite graphs",

abstract = "We characterize the bipartite graphs that minimize the (first degree-based) entropy among all bipartite graphs of given size. For bipartite graphs given size and (upper bound on the) order, we give a lower bound for this entropy. The extremal graphs turn out to be complete bipartite graphs, or nearly complete bipartite. Here we make use of an equivalent representation of bipartite graphs by means of Young diagrams, which make it easier to compare the entropy of related graphs. We conclude that the general characterization of the extremal graphs is a difficult problem, due to its connections with number theory. However, it is easier to identify them for particular values of the order n and size m because we have narrowed down the possible extremal graphs. We indicate that some of our ideas extend to other degree-based topological indices as well.",

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T1 - Extremal values of degree-based entropies of bipartite graphs

AU - Cambie, Stijn

AU - Dong, Yanni

AU - Mazzamurro, Matteo

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Y1 - 2024/8

N2 - We characterize the bipartite graphs that minimize the (first degree-based) entropy among all bipartite graphs of given size. For bipartite graphs given size and (upper bound on the) order, we give a lower bound for this entropy. The extremal graphs turn out to be complete bipartite graphs, or nearly complete bipartite. Here we make use of an equivalent representation of bipartite graphs by means of Young diagrams, which make it easier to compare the entropy of related graphs. We conclude that the general characterization of the extremal graphs is a difficult problem, due to its connections with number theory. However, it is easier to identify them for particular values of the order n and size m because we have narrowed down the possible extremal graphs. We indicate that some of our ideas extend to other degree-based topological indices as well.

AB - We characterize the bipartite graphs that minimize the (first degree-based) entropy among all bipartite graphs of given size. For bipartite graphs given size and (upper bound on the) order, we give a lower bound for this entropy. The extremal graphs turn out to be complete bipartite graphs, or nearly complete bipartite. Here we make use of an equivalent representation of bipartite graphs by means of Young diagrams, which make it easier to compare the entropy of related graphs. We conclude that the general characterization of the extremal graphs is a difficult problem, due to its connections with number theory. However, it is easier to identify them for particular values of the order n and size m because we have narrowed down the possible extremal graphs. We indicate that some of our ideas extend to other degree-based topological indices as well.

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KW - Degree-based entropy

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Extremal values of degree-based entropies of bipartite graphs

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