## The detour hull number of a graph

Publication Type : Journal Article

Publisher : Algebra and Discrete Mathematics

Source : Algebra and Discrete Mathematics, Volume 14, Number 2, p.307-322 (2012)

Campus : Amritapuri

School : School of Engineering

Department : Mathematics

Year : 2012

Abstract : For vertices u and v in a connected graph G = (V,E), the set ID[u,v] consists of all those vertices lying on a u - v longest path in G. Given a set S of vertices of G, the union of all sets ID [u,v] for u,v ∈ S, is denoted by ID [S]. A set S is a detour convex set if ID [S] = S. The detour convex hull [S] D of S in G is the smallest detour convex set containing S. The detour hull number dh(G) is the minimum cardinality among the subsets S of V with [S] D= V. A set S of vertices is called a detour set if ID [S] = V. The minimum cardinality of a detour set is the detour number dn(G) of G. A vertex x in G is a detour extreme vertex if it is an initial or terminal vertex of any detour containing x. Certain general properties of these concepts are studied. It is shown that for each pair of positive integers r and s, there is a connected graph G with r detour extreme vertices, each of degree s. Also, it is proved that every two integers a and b with 2 ≤ a ≤ b are realizable as the detour hull number and the detour number respectively, of some graph. For each triple D,k and n of positive integers with 2 ≤ k ≤ n - D + 1 and D ≥ 2, there is a connected graph of order n, detour diameter D and detour hull number k. Bounds for the detour hull number of a graph are obtained. It is proved that dn(G) = dh(G) for a connected graph G with detour diameter at most 4. Also, it is proved that for positive integers a,b and k ≥ 2 with a lt; b ≤ 2a, there exists a connected graph G with detour radius a, detour diameter b and detour hull number k. Graphs G for which dh(G) = n - 1 or dh(G) = n - 2 are characterized. © Journal Algebra and Discrete Mathematics.

Cite this Research Publication : A. Pa Santhakumaran and Chandran, S. VbUllas, “The detour hull number of a graph”, Algebra and Discrete Mathematics, vol. 14, pp. 307-322, 2012.