Algebraic connectivity of k-connected graphs

被引:0
作者
Steve Kirkland
Israel Rocha
Vilmar Trevisan
机构
[1] University of Manitoba,Department of Mathematics
[2] Universidade Federal do Rio Grande do Sul,Instituto de Matemática
来源
Czechoslovak Mathematical Journal | 2015年 / 65卷
关键词
algebraic connectivity; Fiedler vector; 05C50; 15A18;
D O I
暂无
中图分类号
学科分类号
摘要
Let G be a k-connected graph with k ⩾ 2. A hinge is a subset of k vertices whose deletion from G yields a disconnected graph. We consider the algebraic connectivity and Fiedler vectors of such graphs, paying special attention to the signs of the entries in Fielder vectors corresponding to vertices in a hinge, and to vertices in the connected components at a hinge. The results extend those in Fiedler’s papers Algebraic connectivity of graphs (1973), A property of eigenvectors of nonnegative symmetric matrices and its application to graph theory (1975), and Kirkland and Fallat’s paper Perron Components and Algebraic Connectivity for Weighted Graphs (1998).
引用
收藏
页码:219 / 236
页数:17
相关论文
共 21 条
[1]  
Bapat R. B.(2001)The perturbed Laplacian matrix of a graph Linear Multilinear Algebra 49 219-242
[2]  
Kirkland S. J.(2012)On algebraic connectivity of graphs with at most two points of articulation in each block Linear Multilinear Algebra 60 415-432
[3]  
Pati S.(1998)Algebraic connectivity and the characteristic set of a graph Linear Multilinear Algebra 45 247-273
[4]  
Bapat R. B.(2007)Old and new results on algebraic connectivity of graphs Linear Algebra Appl. 423 53-73
[5]  
Lal A. K.(1975)A property of eigenvectors of nonnegative symmetric matrices and its application to graph theory Czech. Math. J. 25 619-633
[6]  
Pati S.(1973)Algebraic connectivity of graphs Czech. Math. J. 23 298-305
[7]  
Bapat R. B.(1996)Characteristic vertices of weighted trees via Perron values Linear Multilinear Algebra 40 311-325
[8]  
Pati S.(1998)Perron components and algebraic connectivity for weighted graphs Linear Multilinear Algebra 44 131-148
[9]  
de Abreu N. M. M.(1994)Laplacian matrices of graphs: a survey Linear Algebra Appl. 197–198 143-176
[10]  
Fiedler M.(2013)The influence of Miroslav Fiedler on spectral graph theory Linear Algebra Appl. 439 818-821
123