The problem of finding the largest connected subgraph of a given undirected host graph, subject to constraints on the maximum degree Δ and the diameter D, was introduced in Dekker et al. (2012) [1], as a generalization of the Degree–Diameter Problem. A case of special interest is when the host graph is a common parallel architecture. Here we discuss the case when the host graph is a k-dimensional mesh. We provide some general bounds for the order of the largest subgraph in arbitrary dimension k, and for the particular cases of k=3, Δ=4 and k=2,Δ=3, we give constructions that result in sharper lower bounds
Research Doctorate - Doctor of Philosophy (PhD)The question of Turán on the maximum number of edges ...
The degree-diameter problem asks for the maximum number of vertices in a graph with maximum degree ∆...
The degree/diameter problem is to determine the largest graphs or digraphs of given maximum degree a...
The problem of finding the largest connected subgraph of a given undirected host graph, subject to c...
We introduce the problem of finding the largest subgraph of a given weighted undirected graph (host ...
We introduce the problem of finding the largest subgraph of a given weighted undirected graph (host ...
The degree diameter problem explores the biggest graph (in terms of number of nodes) subject to some...
The degree diameter problem involves finding the largest graph (in terms of number of vertices) subj...
The degree diameter problem involves finding the largest graph (in terms of the number of vertices) ...
We consider the degree/diameter problem for graphs embedded in a surface, namely, given a surface Σ ...
AbstractThe problem of determining the largest order nd,k of a graph of maximum degree at most d and...
The bounded degree maximum spanning subgraph problem arising from wireless mesh networks is studied ...
A well-known fundamental problem in extremal graph theory is the degree/diameter problem, which is t...
AbstractThe following problem arises in the study of interconnection networks: find graphs of given ...
The degree/diameter problem is to determine the largest graphs or digraphs of given maximum degree a...
Research Doctorate - Doctor of Philosophy (PhD)The question of Turán on the maximum number of edges ...
The degree-diameter problem asks for the maximum number of vertices in a graph with maximum degree ∆...
The degree/diameter problem is to determine the largest graphs or digraphs of given maximum degree a...
The problem of finding the largest connected subgraph of a given undirected host graph, subject to c...
We introduce the problem of finding the largest subgraph of a given weighted undirected graph (host ...
We introduce the problem of finding the largest subgraph of a given weighted undirected graph (host ...
The degree diameter problem explores the biggest graph (in terms of number of nodes) subject to some...
The degree diameter problem involves finding the largest graph (in terms of number of vertices) subj...
The degree diameter problem involves finding the largest graph (in terms of the number of vertices) ...
We consider the degree/diameter problem for graphs embedded in a surface, namely, given a surface Σ ...
AbstractThe problem of determining the largest order nd,k of a graph of maximum degree at most d and...
The bounded degree maximum spanning subgraph problem arising from wireless mesh networks is studied ...
A well-known fundamental problem in extremal graph theory is the degree/diameter problem, which is t...
AbstractThe following problem arises in the study of interconnection networks: find graphs of given ...
The degree/diameter problem is to determine the largest graphs or digraphs of given maximum degree a...
Research Doctorate - Doctor of Philosophy (PhD)The question of Turán on the maximum number of edges ...
The degree-diameter problem asks for the maximum number of vertices in a graph with maximum degree ∆...
The degree/diameter problem is to determine the largest graphs or digraphs of given maximum degree a...