We devise two new integer programming models for range assignment problems arising in wireless network design. Building on an arbitrary set of feasible network topologies, e.g., all spanning trees, we explicitly model the power consumption at a given node as a weighted maximum over edge variables. We show that the standard ILP model is an extended formulation of the new models. For all models, we derive complete polyhedral descriptions in the unconstrained case where all topologies are allowed. These results give rise to tight relaxations even in the constrained case. We can show experimentally that the compact formulations compare favorably to the standard approach
Line of Sight (LoS) networks were designed to model wireless communication in settings which may con...
AbstractGiven a set N of radio stations located on an Euclidean space, a source station s and an int...
We study the shared multicast tree (SMT) problem in wireless networks. To support a multicast sessio...
We study the problem of assigning transmission ranges to the nodes of ad hoc wireless networks so th...
We study the problem of assigning transmission ranges to the nodes of ad hoc wireless networks so th...
We consider the problem of computing an optimal range assignment in a wireless network which allows...
We study the power assignment problem in radio networks, where each radio station can transmit in on...
The paper studies the problem of computing a minimal energy-cost range assignment in an ad-hoc wirel...
Abstract — Power assignment for wireless networks is to assign a power for each wireless node such t...
Given a finite set S of points (i.e. the stations of a radio network) on the plane and a positive in...
We consider combinatorial optimization problems motivated by the following scenario. We are given a ...
In this paper we study the problem of assigning transmission ranges to the nodes of a multi-hop pack...
In this paper we study the problem of assigning transmission ranges to the nodes of a multi-hop pack...
AbstractGiven a set S of n radio-stations located on a d-dimensional space, a source node s (∈S) and...
In this paper we study the problem of assigning transmission ranges to the nodes of a multi-hop pack...
Line of Sight (LoS) networks were designed to model wireless communication in settings which may con...
AbstractGiven a set N of radio stations located on an Euclidean space, a source station s and an int...
We study the shared multicast tree (SMT) problem in wireless networks. To support a multicast sessio...
We study the problem of assigning transmission ranges to the nodes of ad hoc wireless networks so th...
We study the problem of assigning transmission ranges to the nodes of ad hoc wireless networks so th...
We consider the problem of computing an optimal range assignment in a wireless network which allows...
We study the power assignment problem in radio networks, where each radio station can transmit in on...
The paper studies the problem of computing a minimal energy-cost range assignment in an ad-hoc wirel...
Abstract — Power assignment for wireless networks is to assign a power for each wireless node such t...
Given a finite set S of points (i.e. the stations of a radio network) on the plane and a positive in...
We consider combinatorial optimization problems motivated by the following scenario. We are given a ...
In this paper we study the problem of assigning transmission ranges to the nodes of a multi-hop pack...
In this paper we study the problem of assigning transmission ranges to the nodes of a multi-hop pack...
AbstractGiven a set S of n radio-stations located on a d-dimensional space, a source node s (∈S) and...
In this paper we study the problem of assigning transmission ranges to the nodes of a multi-hop pack...
Line of Sight (LoS) networks were designed to model wireless communication in settings which may con...
AbstractGiven a set N of radio stations located on an Euclidean space, a source station s and an int...
We study the shared multicast tree (SMT) problem in wireless networks. To support a multicast sessio...