AbstractIn this paper we consider three classes of chain hexagonal cacti and study their matching and independence related properties. Explicit recurrences are derived for their matching and independence polynomials, and explicit formulae are presented for the number of matchings and independents sets of certain types. Bivariate generating functions for the number of matchings and independent sets of certain types are also computed and then used to deduce the expected size of matchings and independent sets in chains of given length. It is shown that the extremal chain hexagonal cacti with respect to the number of matchings and of independent sets belong to one of the considered types. Possible directions of further research are discussed
AbstractAn explicit recurrence is derived for the matching polynomial of the pentagonal chain. From ...
A perfect matching of a (molecule) graph G is a set of independent edges covering all vertices in G....
AbstractFullerene graphs are 3-regular planar graphs whose faces are pentagons or hexagons. In this ...
AbstractIn this paper we consider three classes of chain hexagonal cacti and study their matching an...
AbstractDošlić and Måløy (2010) [2] obtained the extremal 6-cactus chains with respect to the number...
Abstract“Double hexagonal chains” can be considered as benzenoids constructed by successive fusions ...
Counting the number of maximal independent sets of graphs was started over $50$ years ago by Erd\H{o...
Eccentric distance sum (EDS), which can predict biological and physical properties, is a topological...
which permits unrestricted use, distribution, and reproduction in any medium, provided the original ...
. A simple way to calculate the number of k-matchings, k 5, in hexagonal systems is presented. Some...
The goal of this paper is to obtain quantitative results on the number and on the size of maximal in...
A cactus is a connected graph whose all the blocks are isomorphic to cycle or complete graph on n ve...
AbstractWe prove best-possible upper and lower bounds on the number of matchings in a tree in terms ...
A independent edge set of G containing mutually independent edges is also called a matching of G. Th...
AbstractWe derive closed formulas for the numbers of independent sets of size at most 4 and matching...
AbstractAn explicit recurrence is derived for the matching polynomial of the pentagonal chain. From ...
A perfect matching of a (molecule) graph G is a set of independent edges covering all vertices in G....
AbstractFullerene graphs are 3-regular planar graphs whose faces are pentagons or hexagons. In this ...
AbstractIn this paper we consider three classes of chain hexagonal cacti and study their matching an...
AbstractDošlić and Måløy (2010) [2] obtained the extremal 6-cactus chains with respect to the number...
Abstract“Double hexagonal chains” can be considered as benzenoids constructed by successive fusions ...
Counting the number of maximal independent sets of graphs was started over $50$ years ago by Erd\H{o...
Eccentric distance sum (EDS), which can predict biological and physical properties, is a topological...
which permits unrestricted use, distribution, and reproduction in any medium, provided the original ...
. A simple way to calculate the number of k-matchings, k 5, in hexagonal systems is presented. Some...
The goal of this paper is to obtain quantitative results on the number and on the size of maximal in...
A cactus is a connected graph whose all the blocks are isomorphic to cycle or complete graph on n ve...
AbstractWe prove best-possible upper and lower bounds on the number of matchings in a tree in terms ...
A independent edge set of G containing mutually independent edges is also called a matching of G. Th...
AbstractWe derive closed formulas for the numbers of independent sets of size at most 4 and matching...
AbstractAn explicit recurrence is derived for the matching polynomial of the pentagonal chain. From ...
A perfect matching of a (molecule) graph G is a set of independent edges covering all vertices in G....
AbstractFullerene graphs are 3-regular planar graphs whose faces are pentagons or hexagons. In this ...