We consider several related problems arising in geometric graphs. In particular, we investigate the computational complexity and approximability properties of several optimization problems in unit ball graphs and develop algorithms to find exact and approximate solutions. In addition, we establish complexity-based theoretical justifications for several greedy heuristics. Unit ball graphs, which are defined in the three dimensional Euclidian space, have several application areas such as computational geometry, facility location and, particularly, wireless communication networks. Efficient operation of wireless networks involves several decision problems that can be reduced to well known optimization problems in graph theory. For instance, th...
A unit disk graph is the intersection graph of a family of unit disks in the plane. If the disks do ...
Wireless networks are created by the communication links between a collection of radio transceivers....
AbstractGiven a (directed or undirected) graph with edge costs, the power of a node is the maximum c...
We consider several related problems arising in geometric graphs. In particular, we investigate the ...
We study four problems arising in the area of communication networks. The minimum-weight dominating ...
The greedy approach is natural for the design of algorithms. It is fast, easy to implement, has a go...
AbstractWe prove that the max-cut and max-bisection problems are NP-hard on unit disk graphs. We als...
This thesis deals with a number of geometric optimization problems which are all NP-hard. The first ...
We consider a well studied generalization of the maximum clique problem which is defined as follows....
AbstractWe characterize the complexity of a number of basic optimization problems for unit disk grap...
AbstractConsider an asymmetric wireless network represented by a digraph G=(V,E). A subset of vertic...
summary:It is shown that the problem of finding a minimum $k$-basis, the $n$-center problem, and the...
We consider several graph theoretic problems on unit disk graphs (Maximum Independent Set, Minimum V...
We consider several graph theoretic problems on unit disk graphs (Maximum Independent Set, Minimum V...
This dissertation is a contribution to the knowledge of the computational complexity of discrete com...
A unit disk graph is the intersection graph of a family of unit disks in the plane. If the disks do ...
Wireless networks are created by the communication links between a collection of radio transceivers....
AbstractGiven a (directed or undirected) graph with edge costs, the power of a node is the maximum c...
We consider several related problems arising in geometric graphs. In particular, we investigate the ...
We study four problems arising in the area of communication networks. The minimum-weight dominating ...
The greedy approach is natural for the design of algorithms. It is fast, easy to implement, has a go...
AbstractWe prove that the max-cut and max-bisection problems are NP-hard on unit disk graphs. We als...
This thesis deals with a number of geometric optimization problems which are all NP-hard. The first ...
We consider a well studied generalization of the maximum clique problem which is defined as follows....
AbstractWe characterize the complexity of a number of basic optimization problems for unit disk grap...
AbstractConsider an asymmetric wireless network represented by a digraph G=(V,E). A subset of vertic...
summary:It is shown that the problem of finding a minimum $k$-basis, the $n$-center problem, and the...
We consider several graph theoretic problems on unit disk graphs (Maximum Independent Set, Minimum V...
We consider several graph theoretic problems on unit disk graphs (Maximum Independent Set, Minimum V...
This dissertation is a contribution to the knowledge of the computational complexity of discrete com...
A unit disk graph is the intersection graph of a family of unit disks in the plane. If the disks do ...
Wireless networks are created by the communication links between a collection of radio transceivers....
AbstractGiven a (directed or undirected) graph with edge costs, the power of a node is the maximum c...