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Metric and Fault-Tolerant Metric Dimension of Hollow Coronoid
Coronoid systems actually arrangements of hexagons into six sides of benzenoids. By nature, it is an organic chemical structure. Hollow coronoids are primitive and catacondensed coronoids. It is also known as polycyclic conjugated hydrocarbons. The mathematical study of chemicals is of great interes...
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| Published in: | IEEE access 2021, Vol.9, p.81527-81534 |
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| creator | Koam, Ali N. A. Ahmad, Ali Abdelhag, Mohammed Eltahir Azeem, Muhammad |
| description | Coronoid systems actually arrangements of hexagons into six sides of benzenoids. By nature, it is an organic chemical structure. Hollow coronoids are primitive and catacondensed coronoids. It is also known as polycyclic conjugated hydrocarbons. The mathematical study of chemicals is of great interest to different specialties researchers. While graph theory always played a significant role to make chemical structures understandable and blessed with applications also. After transforming the chemical structure into a graph, one can implement different theoretical and implicative studies on structures. Metric dimension is considered as one of the most studied and implicative parameters of graph theory. In this concept, few suggested vertices are chosen such as the remaining vertices have unique locations or identifications. In this study, we discussed different metric-based parameters for the hollow coronoid structure. |
| doi_str_mv | 10.1109/ACCESS.2021.3085584 |
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| subjects | Apexes Benzenoids Chemicals Fault tolerance Fault tolerant systems fault-tolerant metric dimension Graph theory Hexagons Hollow coronoid Measurement metric dimension Organic chemicals Organic chemistry Parameter identification resolving set Robots Topology |
| title | Metric and Fault-Tolerant Metric Dimension of Hollow Coronoid |
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