Add to ORKGLet G be a connected graph with vertex set V(G). The degree resistance distance of G is defined as the sum over all pairs of vertices of the terms [d(u)+d(v)] R(u,v), where d(u) is the degree of vertex u, and R(u,v) denotes the resistance distance between u and v. In this paper, we characterize n-vertex unicyclic graphs having minimum and second minimum degree resistance distance
AbstractIn this note, we study the degree distance of a graph which is a degree analogue of the Wien...
The resistance distance between two vertices of a connected graph is defined as the net effective re...
AbstractIn this paper, we study a new graph invariant named reciprocal degree distance (RDD), define...
The reciprocal degree resistance distance index of a connected graph G is defined as RDRG=∑u,v⊆VGdGu...
In graph theory, the resistance distance between any two vertices of a simple connected graph G is e...
Abstract. The reverse degree distance of a connected graph G is defined in discrete mathematical che...
We may view any graph as a network of resistors each having a resistance of 1 Ω. The resistance dist...
The degree distance of a connected graph G with vertex set V (G) is defined as D′(G) = u∈V (G) dG(u)...
The Resistance-Harary index of a connected graph G is defined as R H ( G ) = ∑ { u ,...
The reciprocal degree resistance distance index of a connected graph G is defined as RDRG=∑u,v⊆VGdGu...
AbstractIn this paper characterizations of connected unicyclic and bicyclic graphs in terms of the d...
The resistance distance between two vertices of a connected graph is defined as the net effective re...
In contrast to the classical notion of distance as the length of a shortest path between two vertice...
AbstractThe degree distance of a connected graph, introduced by Dobrynin, Kochetova and Gutman, has ...
We generalize several topological indices and introduce the general degree distance of a connected g...
AbstractIn this note, we study the degree distance of a graph which is a degree analogue of the Wien...
The resistance distance between two vertices of a connected graph is defined as the net effective re...
AbstractIn this paper, we study a new graph invariant named reciprocal degree distance (RDD), define...
The reciprocal degree resistance distance index of a connected graph G is defined as RDRG=∑u,v⊆VGdGu...
In graph theory, the resistance distance between any two vertices of a simple connected graph G is e...
Abstract. The reverse degree distance of a connected graph G is defined in discrete mathematical che...
We may view any graph as a network of resistors each having a resistance of 1 Ω. The resistance dist...
The degree distance of a connected graph G with vertex set V (G) is defined as D′(G) = u∈V (G) dG(u)...
The Resistance-Harary index of a connected graph G is defined as R H ( G ) = ∑ { u ,...
The reciprocal degree resistance distance index of a connected graph G is defined as RDRG=∑u,v⊆VGdGu...
AbstractIn this paper characterizations of connected unicyclic and bicyclic graphs in terms of the d...
The resistance distance between two vertices of a connected graph is defined as the net effective re...
In contrast to the classical notion of distance as the length of a shortest path between two vertice...
AbstractThe degree distance of a connected graph, introduced by Dobrynin, Kochetova and Gutman, has ...
We generalize several topological indices and introduce the general degree distance of a connected g...
AbstractIn this note, we study the degree distance of a graph which is a degree analogue of the Wien...
The resistance distance between two vertices of a connected graph is defined as the net effective re...
AbstractIn this paper, we study a new graph invariant named reciprocal degree distance (RDD), define...