Modular total vertex irregularity strength of graphs
Copyright policy )Modular total vertex irregularity strength of graphs
<abstract><p>A (modular) vertex irregular total labeling of a graph $ G $ of order $ n $ is an assignment of positive integers from $ 1 $ to $ k $ to the vertices and edges of $ G $ with the property that all vertex weights are distinct. The vertex weight of a vertex $ v $ is defined as the sum of numbers assigned to the vertex $ v $ itself and to the edge's incident, while the modular vertex weight is defined as the remainder of the division of the vertex weight by $ n $. The (modular) total vertex irregularity strength of $ G $ is the minimum $ k $ for which such labeling exists. In this paper, we obtain estimations on the modular total vertex irregularity strength, and we evaluate the precise values of this invariant for certain graphs.</p></abstract>
- Technical University of Košice Slovakia
- Islamia College University Pakistan
- Western Sydney University Australia
- Saveetha University India
- Prince Sultan University Saudi Arabia
(modular) total vertex irregularity strength, Irregularity Strength, Mathematical analysis, Graph, Optical Code Division Multiple Access, Engineering, (modular) irregular labeling, QA1-939, FOS: Mathematics, FOS: Electrical engineering, electronic engineering, information engineering, Electrical and Electronic Engineering, Graph Labeling and Dimension Problems, Modular design, Neighbourhood (mathematics), Graph Spectra and Topological Indices, Total Edge Irregularity, Discrete mathematics, Computer science, Vertex (graph theory), Operating system, Computational Theory and Mathematics, Combinatorics, Computer Science, Physical Sciences, (modular) irregularity strength, Geometry and Topology, Mathematics
(modular) total vertex irregularity strength, Irregularity Strength, Mathematical analysis, Graph, Optical Code Division Multiple Access, Engineering, (modular) irregular labeling, QA1-939, FOS: Mathematics, FOS: Electrical engineering, electronic engineering, information engineering, Electrical and Electronic Engineering, Graph Labeling and Dimension Problems, Modular design, Neighbourhood (mathematics), Graph Spectra and Topological Indices, Total Edge Irregularity, Discrete mathematics, Computer science, Vertex (graph theory), Operating system, Computational Theory and Mathematics, Combinatorics, Computer Science, Physical Sciences, (modular) irregularity strength, Geometry and Topology, Mathematics
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