Relation between degree distance and gutman index of graphs

Kinkar Ch Das; Guifu Su; Liming Xiong

Relation between degree distance and gutman index of graphs

Kinkar Ch Das
, Guifu Su
, Liming Xiong

Department of Mathematics

Research output: Contribution to journal › Article › peer-review

26 Scopus citations

Abstract

Let G = (V; E) be a simple connected graph with n vertices and m edges. The degree distance of a graph G is D′(G) = ∑ {v_i; v_j}⊆V (G) (dG(v_i) + dG(v_j)) d_G(v_i; v_j): where d_G(v_i; v_j) is the shortest distance between vertices v_i and v_j, and d_G(v_i) is the degree of the vertex v_i in G. The Gutman index (also known as Schultz index of the second kind) of a graph G is defined as Gut(G) = ∑ {v_i; v}⊆V (G) d_G(v_i) d_G(v_j) d_G(v_i; v_j): We obtain some lower and upper bounds on D′ (G) and Gut(G) of a graph G in terms of n, m,Δ and δ and characterize the extremal graphs. Moreover, we present some relations between D′ (G) and Gut(G) of graph G.

Original language	English
Pages (from-to)	221-232
Number of pages	12
Journal	Match
Volume	76
Issue number	1
State	Published - 2016

Cite this

@article{56a6ce942fc34b3e8514b07c02791e1f,

title = "Relation between degree distance and gutman index of graphs",

abstract = "Let G = (V; E) be a simple connected graph with n vertices and m edges. The degree distance of a graph G is D′(G) = ∑ \{vi; vj\}⊆V (G) (dG(vi) + dG(vj)) dG(vi; vj): where dG(vi; vj) is the shortest distance between vertices vi and vj, and dG(vi) is the degree of the vertex vi in G. The Gutman index (also known as Schultz index of the second kind) of a graph G is defined as Gut(G) = ∑ \{vi; v\}⊆V (G) dG(vi) dG(vj) dG(vi; vj): We obtain some lower and upper bounds on D′ (G) and Gut(G) of a graph G in terms of n, m,Δ and δ and characterize the extremal graphs. Moreover, we present some relations between D′ (G) and Gut(G) of graph G.",

author = "Das, \{Kinkar Ch\} and Guifu Su and Liming Xiong",

year = "2016",

language = "English",

volume = "76",

pages = "221--232",

journal = "Match",

issn = "0340-6253",

publisher = "University of Kragujevac, Faculty of Science",

number = "1",

}

TY - JOUR

T1 - Relation between degree distance and gutman index of graphs

AU - Das, Kinkar Ch

AU - Su, Guifu

AU - Xiong, Liming

PY - 2016

Y1 - 2016

N2 - Let G = (V; E) be a simple connected graph with n vertices and m edges. The degree distance of a graph G is D′(G) = ∑ {vi; vj}⊆V (G) (dG(vi) + dG(vj)) dG(vi; vj): where dG(vi; vj) is the shortest distance between vertices vi and vj, and dG(vi) is the degree of the vertex vi in G. The Gutman index (also known as Schultz index of the second kind) of a graph G is defined as Gut(G) = ∑ {vi; v}⊆V (G) dG(vi) dG(vj) dG(vi; vj): We obtain some lower and upper bounds on D′ (G) and Gut(G) of a graph G in terms of n, m,Δ and δ and characterize the extremal graphs. Moreover, we present some relations between D′ (G) and Gut(G) of graph G.

AB - Let G = (V; E) be a simple connected graph with n vertices and m edges. The degree distance of a graph G is D′(G) = ∑ {vi; vj}⊆V (G) (dG(vi) + dG(vj)) dG(vi; vj): where dG(vi; vj) is the shortest distance between vertices vi and vj, and dG(vi) is the degree of the vertex vi in G. The Gutman index (also known as Schultz index of the second kind) of a graph G is defined as Gut(G) = ∑ {vi; v}⊆V (G) dG(vi) dG(vj) dG(vi; vj): We obtain some lower and upper bounds on D′ (G) and Gut(G) of a graph G in terms of n, m,Δ and δ and characterize the extremal graphs. Moreover, we present some relations between D′ (G) and Gut(G) of graph G.

UR - https://www.scopus.com/pages/publications/84964950098

M3 - Article

AN - SCOPUS:84964950098

SN - 0340-6253

VL - 76

SP - 221

EP - 232

JO - Match

JF - Match

IS - 1

ER -

Relation between degree distance and gutman index of graphs

Abstract

Other files and links

Fingerprint

Cite this