Classification of Upper Bound Sequences of Local Fractional Metric Dimension of Rotationally Symmetric Hexagonal Planar Networks
Copyright policy )Classification of Upper Bound Sequences of Local Fractional Metric Dimension of Rotationally Symmetric Hexagonal Planar Networks
The term metric or distance of a graph plays a vital role in the study to check the structural properties of the networks such as complexity, modularity, centrality, accessibility, connectivity, robustness, clustering, and vulnerability. In particular, various metrics or distance-based dimensions of different kinds of networks are used to resolve the problems in different strata such as in security to find a suitable place for fixing sensors for security purposes. In the field of computer science, metric dimensions are most useful in aspects such as image processing, navigation, pattern recognition, and integer programming problem. Also, metric dimensions play a vital role in the field of chemical engineering, for example, the problem of drug discovery and the formation of different chemical compounds are resolved by means of some suitable metric dimension algorithm. In this paper, we take rotationally symmetric and hexagonal planar networks with all possible faces. We find the sequences of the local fractional metric dimensions of proposed rotationally symmetric and planar networks. Also, we discuss the boundedness of sequences of local fractional metric dimensions. Moreover, we summarize the sequences of local fractional metric dimension by means of their graphs.
- King Saud University Saudi Arabia
- University of the Punjab Pakistan
- Khwaja Fareed University of Engineering and Information Technology Pakistan
Metric (unit), Economics, Robustness (evolution), Metric dimension, Pathwidth, Biochemistry, Gene, Graph, Planar graphs; geometric and topological aspects of graph theory, Distance Spectra, Planar graph, Theoretical computer science, QA1-939, FOS: Mathematics, Centrality, Graph Labeling and Dimension Problems, Topology (electrical circuits), Distance in graphs, Graph Spectra and Topological Indices, Line graph, Discrete mathematics, Computer science, Chemistry, Dimension (graph theory), Operations management, Computational Theory and Mathematics, Combinatorics, Computer Science, Physical Sciences, Metric Dimension, Geometry and Topology, Mathematics
Metric (unit), Economics, Robustness (evolution), Metric dimension, Pathwidth, Biochemistry, Gene, Graph, Planar graphs; geometric and topological aspects of graph theory, Distance Spectra, Planar graph, Theoretical computer science, QA1-939, FOS: Mathematics, Centrality, Graph Labeling and Dimension Problems, Topology (electrical circuits), Distance in graphs, Graph Spectra and Topological Indices, Line graph, Discrete mathematics, Computer science, Chemistry, Dimension (graph theory), Operations management, Computational Theory and Mathematics, Combinatorics, Computer Science, Physical Sciences, Metric Dimension, Geometry and Topology, Mathematics
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