Further results on non-self-centrality measures of graphs

Author:

Azari Mahdieh1

Affiliation:

1. nema

Abstract

For indicating the non-self-centrality extent of graphs, two new eccentricity-based measures namely third Zagreb eccentricity index E3(G) and non-self-centrality number N(G) of a connected graph G have recently been introduced as E3(G) = ?uv?E(G)|?G(u)-?G(v)| and N(G) = ? {u,v}?V(G) |?G(u)-?G(v)|, where ?G(u) denotes the eccentricity of a vertex u in G. In this paper, we find relation between the third Zagreb eccentricity index of graphs with some eccentricity-based invariants such as second Zagreb eccentricity index and second eccentric connectivity index. We also give sharp upper and lower bounds on the nonself-centrality number of graphs in terms of some structural parameters and relate it to two well-known eccentricity-based invariants namely total eccentricity and first Zagreb eccentricity index. Furthermore, we present exact expressions or sharp upper bounds on the third Zagreb eccentricity index and non-selfcentrality number of several graph operations such as join, disjunction, symmetric difference, lexicographic product, strong product, and generalized hierarchical product. The formulae for Cartesian product and rooted product as two important special cases of generalized hierarchical product and the formulae for corona product as a special case of rooted product are also given.

Publisher

National Library of Serbia

Subject

General Mathematics

Cited by 6 articles. 订阅此论文施引文献 订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献

1. A new measure for transmission irregularity extent of graphs;COMMUN COMB OPTIM;2024

2. Measuring peripherality extent in chemical graphs via graph operations;International Journal of Quantum Chemistry;2021-11-06

3. Non-self-centrality number of some molecular graphs;AIMS Mathematics;2021

4. Further results on Zagreb eccentricity coindices;Discrete Mathematics, Algorithms and Applications;2020-08-17

5. Eccentric connectivity coindex under graph operations;Journal of Applied Mathematics and Computing;2019-06-27

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