Let G = (N; E) be an edge-weighted undirected graph. The graph partitioning problem is the problem of partitioning the node set N into k disjoint subsets of specified sizes so as to minimize the total weight of the edges connecting nodes in distinct subsets of the partition. We present a numerical study on the use of eigenvalue-based techniques to find upper and lower bounds for this problem. Results for bisecting graphs with up to several thousand nodes are given, and for small graphs some trisection results are presented. We show that the techniques are very robust and consistently produce upper and lower bounds having a relative gap of typically a few percentage points
In 2003 at Eurocomb conference J. Barát and C. Thomassen presented definition and basic results in e...
Existing graph partitioning approaches are mainly based on optimizing edge cuts and do not take the ...
AbstractThe graph partitioning problem is to divide the vertices of a graph into disjoint clusters t...
The graph partitioning problem is as follows. Given a graph G = (N, E) (where N is a set of we...
The graph partitioning problem consists of dividing the vertices of a graph into clusters, such that...
The bottleneck graph partition problem consists of partitioning the vertices of an undirected edge-w...
We study the computational complexity and approximability for the problem of partitioning a vertex-w...
Due to many technical advances of the last decades, networks are used everywhere. Graphs can be used...
Graph partitioning is the problem of splitting a graph into two or more partitions of fixed sizes wh...
The graph partition problem (GPP) aims at clustering the vertex set of a graph into a fixed number o...
In this paper we consider the problem of k-partitioning the nodes of a graph with capacity restricti...
A graph separator is a set of vertices or edges whose removal divides an input graph into components...
In this paper we consider the problem of k-partitioning the nodes of a graph with capacity restricti...
In this paper we consider the problem of k-partitioning the nodes of a graph with capacity restricti...
AbstractAssume that each vertex of a graph G is assigned a nonnegative integer weight and that l and...
In 2003 at Eurocomb conference J. Barát and C. Thomassen presented definition and basic results in e...
Existing graph partitioning approaches are mainly based on optimizing edge cuts and do not take the ...
AbstractThe graph partitioning problem is to divide the vertices of a graph into disjoint clusters t...
The graph partitioning problem is as follows. Given a graph G = (N, E) (where N is a set of we...
The graph partitioning problem consists of dividing the vertices of a graph into clusters, such that...
The bottleneck graph partition problem consists of partitioning the vertices of an undirected edge-w...
We study the computational complexity and approximability for the problem of partitioning a vertex-w...
Due to many technical advances of the last decades, networks are used everywhere. Graphs can be used...
Graph partitioning is the problem of splitting a graph into two or more partitions of fixed sizes wh...
The graph partition problem (GPP) aims at clustering the vertex set of a graph into a fixed number o...
In this paper we consider the problem of k-partitioning the nodes of a graph with capacity restricti...
A graph separator is a set of vertices or edges whose removal divides an input graph into components...
In this paper we consider the problem of k-partitioning the nodes of a graph with capacity restricti...
In this paper we consider the problem of k-partitioning the nodes of a graph with capacity restricti...
AbstractAssume that each vertex of a graph G is assigned a nonnegative integer weight and that l and...
In 2003 at Eurocomb conference J. Barát and C. Thomassen presented definition and basic results in e...
Existing graph partitioning approaches are mainly based on optimizing edge cuts and do not take the ...
AbstractThe graph partitioning problem is to divide the vertices of a graph into disjoint clusters t...