图中团的邻域计数的组合方法

IF 0.3 Q4 MATHEMATICS Advances and Applications in Discrete Mathematics Pub Date : 2023-10-21 DOI:10.17654/0974165823063

Alcyn R. Bakkang, Regimar A. Rasid, Rosalio G. Artes

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摘要

设$G$为简单连通图。那么$V(G)$的$i$ -子集就是基数$i$的$V(G)$的子集。一个$i$ -团是一个$i$ -子集，它引出了$G$的一个完整子图。$G$的团簇邻域多项式由$c n(G ; x, y)=\sum_{j=0}^{n-i} \sum_{i=1}^{\omega(G)} c_{i j}(G) x^i y^j$给出，其中$c_{i j}(G)$是$G$中邻域基数等于$j$的$i$ -团簇个数，$\omega(G)$是$G$中最大团簇的基数，称为$G$的团簇数。本文用组合方法得到了完全图、完全二部图和完全$q$ -部图等特殊图的团邻域多项式。收稿日期:2023年9月14日。收稿日期:2023年10月9日

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COMBINATORIAL APPROACH IN COUNTING THE NEIGHBORS OF CLIQUES IN A GRAPH

Let $G$ be a simple connected graph. Then an $i$-subset of $V(G)$ is a subset of $V(G)$ of cardinality $i$. An $i$-clique is an $i$-subset which induces a complete subgraph of $G$. The clique neighborhood polynomial of $G$ is given by $c n(G ; x, y)=\sum_{j=0}^{n-i} \sum_{i=1}^{\omega(G)} c_{i j}(G) x^i y^j$, where $c_{i j}(G)$ is the number of $i$-cliques in $G$ with neighborhood cardinality equal to $j$ and $\omega(G)$ is the cardinality of a maximum clique in $G$, called the clique number of $G$. In this paper, we obtain the clique neighborhood polynomials of the special graphs such as the complete graph, complete bipartite graph and complete $q$-partite graph using combinatorial approach. Received: September 14, 2023Accepted: October 9, 2023

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Advances and Applications in Discrete Mathematics MATHEMATICS-

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