Hitting times for random walks on subdivision and triangulation graphs |
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Authors: | Haiyan Chen |
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Institution: | School of Sciences, Jimei University, Xiamen, P.R. China. |
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Abstract: | Let G be a connected graph. The subdivision graph of G, denoted by S(G), is the graph obtained from G by inserting a new vertex into every edge of G. The triangulation graph of G, denoted by R(G), is the graph obtained from G by adding, for each edge uv, a new vertex whose neighbours are u and v. In this paper, we first provide complete information for the eigenvalues and eigenvectors of the probability transition matrix of a random walk on S(G) (res. R(G)) in terms of those of G. Then we give an explicit formula for the expected hitting time between any two vertices of S(G) (res. R(G)) in terms of those of G. Finally, as applications, we show that, the relations between the resistance distances, the number of spanning trees and the multiplicative degree-Kirchhoff index of S(G) (res. R(G)) and G can all be deduced from our results directly. |
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Keywords: | Hitting time subdivision graph triangulation graph multiplicative degree-Kirchhoff index |
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