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扈生彪 《数学的实践与认识》2011,41(15)
设A(G)是简单图G的邻接矩阵,H是由G的独立边和不交圈组成的生成子图的集合,e是H中某个图的独立边,C是H中图的圈,且e∈E(C).记G-e是G的删边子图,G\W是从G中删去导出子图W中的顶点及其关联边后得到的图.那么A(G)的行列式为detA(G)=detA(G-e)-detA(G\e)-2(-1)~(|V(C)|)detA(G\C)A(G)的积和式为perA(G)=perA(G-e)+perA(G\e)+2perA(G\C)这里,C取遍H中图的经过边e的圈. 相似文献
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《应用数学学报》2016,(6)
如果图G有一个生成的欧拉子图,则称G是超欧拉图.用α′(G)表示G中最大独立的边的数目.本文证明了:若G是一个2-边连通简单图且α′(G)≤2,则G要么是可折叠图,要么存在G的某个连通子图H,使得对某个正整数t≥2,约化图G/H是K_(2.t.)推广了[Lai H J,Yan H.Supereulerian graphs and matchings.Appl.Math.Lett.,2011,24:1867-1869]中的一个主要结果.并且证明了上述文献中提出的一个猜想:3一边连通且α′(G)≤5的简单图是超欧拉图当且仅当它不可收缩成Petersen图. 相似文献
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曲面S的一个极小禁用子图是这样的一个图,它的任何一个顶点的度都不小于3,它不能嵌入在S上,但是删去任何一条边后得到的图能嵌入在S上.本文给出了四种构造一个不可定向曲面的极小禁用子图的方式,即粘合一个顶点,一个图的边被其它的图替换,粘合两个顶点,将一个图放在另一个图的一个曲面嵌入的面内. 相似文献
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设H是图G的一个子图.图G中同构于H的点不交的子图构成的集合称为G的一个H-匹配.图G的H-匹配的最大基数称为是G的H-匹配数,记为ν(H,G).本文主要研究ν(H,G)与G的无符号拉普拉斯谱的关系,同时也讨论了ν(H,G)与G的拉普拉斯谱的关系. 相似文献
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符号图$S=(S^u,\sigma)$是以$S^u$作为底图并且满足$\sigma: E(S^u)\rightarrow\{+,-\}$. 设$E^-(S)$表示$S$的负边集. 如果$S^u$是欧拉的(或者分别是子欧拉的, 欧拉的且$|E^-(S)|$是偶数, 则$S$是欧拉符号图(或者分别是子欧拉符号图, 平衡欧拉符号图). 如果存在平衡欧拉符号图$S''$使得$S''$由$S$生成, 则$S$是平衡子欧拉符号图. 符号图$S$的线图$L(S)$也是一个符号图, 使得$L(S)$的点是$S$中的边, 其中$e_ie_j$是$L(S)$中的边当且仅当$e_i$和$e_j$在$S$中相邻,并且$e_ie_j$是$L(S)$中的负边当且仅当$e_i$和$e_j$在$S$中都是负边. 本文给出了两个符号图族$S$和$S''$,它们应用于刻画平衡子欧拉符号图和平衡子欧拉符号线图. 特别地, 本文证明了符号图$S$是平衡子欧拉的当且仅当$\not\in S$, $S$的符号线图是平衡子欧拉的当且仅当$S\not\in S''$. 相似文献
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A multicolored tree is a tree whose edges have different colors. Brualdi and Hollingsworth 5 proved in any proper edge coloring of the complete graph K2n(n > 2) with 2n ? 1 colors, there are two edge‐disjoint multicolored spanning trees. In this paper we generalize this result showing that if (a1,…, ak) is a color distribution for the complete graph Kn, n ≥ 5, such that , then there exist two edge‐disjoint multicolored spanning trees. Moreover, we prove that for any edge coloring of the complete graph Kn with the above distribution if T is a non‐star multicolored spanning tree of Kn, then there exists a multicolored spanning tree T' of Kn such that T and T' are edge‐disjoint. Also it is shown that if Kn, n ≥ 6, is edge colored with k colors and , then there exist two edge‐disjoint multicolored spanning trees. © 2006 Wiley Periodicals, Inc. J Graph Theory 54: 221–232, 2007 相似文献
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《Journal of Graph Theory》2018,87(3):333-346
Brualdi and Hollingsworth conjectured that, for even n, in a proper edge coloring of using precisely colors, the edge set can be partitioned into spanning trees which are rainbow (and hence, precisely one edge from each color class is in each spanning tree). They proved that there always are two edge disjoint rainbow spanning trees. Krussel, Marshall, and Verrall improved this to three edge disjoint rainbow spanning trees. Recently, Carraher, Hartke and the author proved a theorem improving this to rainbow spanning trees, even when more general edge colorings of are considered. In this article, we show that if is properly edge colored with colors, a positive fraction of the edges can be covered by edge disjoint rainbow spanning trees. 相似文献
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《Discrete Mathematics》2023,346(4):113297
One of the most important questions in matroid optimization is to find disjoint common bases of two matroids. The significance of the problem is well-illustrated by the long list of conjectures that can be formulated as special cases. Bérczi and Schwarcz showed that the problem is hard in general, therefore identifying the borderline between tractable and intractable instances is of interest.In the present paper, we study the special case when one of the matroids is a partition matroid while the other one is a graphic matroid. This setting is equivalent to the problem of packing rainbow spanning trees, an extension of the problem of packing arborescences in directed graphs which was answered by Edmonds' seminal result on disjoint arborescences. We complement his result by showing that it is NP-complete to decide whether an edge-colored graph contains two disjoint rainbow spanning trees. Our complexity result holds even for the very special case when the graph is the union of two spanning trees and each color class contains exactly two edges. As a corollary, we give a negative answer to a question on the decomposition of oriented k-partition-connected digraphs. 相似文献
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Tutte proved that every 3‐connected graph G on more than 4 vertices contains a contractible edge. We strengthen this result by showing that every depth‐first‐search tree of G contains a contractible edge. Moreover, we show that every spanning tree of G contains a contractible edge if G is 3‐regular or if G does not contain two disjoint pairs of adjacent degree‐3 vertices. 相似文献
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Tetsuo Asano Mark de Berg Otfried Cheong Leonidas J. Guibas Jack Snoeyink Hisao Tamaki 《Discrete and Computational Geometry》2003,30(4):591-606
We consider the problem of finding low-cost spanning trees for sets
of $n$ points in the plane, where the cost of a spanning tree is
defined as the total number of intersections of tree edges with
a given set of $m$ barriers. We obtain the following results:
(i) if the barriers are possibly intersecting line segments,
then there is always a spanning tree of cost
$O(\min(m^2,m\sqrt{n}))$; (ii) if the barriers are disjoint line segments,
then there is always a spanning tree of cost $O(m)$; (iii) ] if the barriers are disjoint
convex objects,
then there is always a spanning tree of cost $O(n+m)$.
All our bounds are worst-case optimal, up to multiplicative constants. 相似文献
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Minimum edge ranking spanning trees of split graphs 总被引:1,自引:0,他引:1
Given a graph G, the minimum edge ranking spanning tree problem (MERST) is to find a spanning tree of G whose edge ranking is minimum. However, this problem is known to be NP-hard for general graphs. In this paper, we show that the problem MERST has a polynomial time algorithm for split graphs, which have useful applications in practice. The result is also significant in the sense that this is a first non-trivial graph class for which the problem MERST is found to be polynomially solvable. We also show that the problem MERST for threshold graphs can be solved in linear time, where threshold graphs are known to be split. 相似文献
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Martin Kochol 《Graphs and Combinatorics》1992,8(4):313-315
The well known theorem of Nash-Williams determines the graphs that are union ofk edge disjoint forests. The main result presented in this note is that any graph which is the union ofk edge disjoint forests is in fact a union ofk such forests in which if a vertex has degree at least 3 in one of the forests then its degree is positive in all the other
forests. We also discuss consequences of this result with respect to the arboricity of regular graphs. 相似文献
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By Petersen's theorem, a bridgeless cubic graph has a 2‐factor. H. Fleischner extended this result to bridgeless graphs of minimum degree at least three by showing that every such graph has a spanning even subgraph. Our main result is that, under the stronger hypothesis of 3‐edge‐connectivity, we can find a spanning even subgraph in which every component has at least five vertices. We show that this is in some sense best possible by constructing an infinite family of 3‐edge‐connected graphs in which every spanning even subgraph has a 5‐cycle as a component. © 2009 Wiley Periodicals, Inc. J Graph Theory 62: 37–47, 2009 相似文献
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We introduce a method for reducing k‐tournament problems, for k ≥ 3, to ordinary tournaments, that is, 2‐tournaments. It is applied to show that a k‐tournament on n ≥ k + 1 + 24d vertices (when k ≥ 4) or on n ≥ 30d + 2 vertices (when k = 3) has d edge‐disjoint Hamiltonian cycles if and only if it is d‐edge‐connected. Ironically, this is proved by ordinary tournament arguments although it only holds for k ≥ 3. We also characterizatize the pancyclic k‐tournaments, a problem posed by Gutin and Yeo.(Our characterization is slightly incomplete in that we prove it only for n large compared to k.). © 2005 Wiley Periodicals, Inc. J Graph Theory 相似文献
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完全二部图广义Mycielski图的邻点可区别全色数与邻强边色数 总被引:6,自引:1,他引:5
得到了完全二部图Km,n的广义Mycielski图Ml(Km,n),当(l≥1,n≥m≥2)时的邻点可区别全色数与邻强边色数. 相似文献