Greedy Maximal Matching (GMM) is an important scheduling scheme for multi-hop wireless networks. It is computationally simple, and has often been numerically shown to achieve throughput that is close to optimal. However, to date the performance limits of GMM have not been well understood. In particular, although a lower bound on its performance has been well known, this bound has been empirically found to be quite loose. In this paper, we focus on the well-established node-exclusive interference model and provide new analytical results that characterize the performance of GMM through a topological notion called the local-pooling factor. We show that for a given network graph with single-hop traffic, the efficiency ratio of GMM (i. e., the w...
Several policies have recently been proposed for attaining the maximum throughput region, or a guara...
We address the question of providing throughput guarantees through distributed scheduling, which has...
Given a placement of wireless nodes in space and a traffic demand between pairs of nodes, can these ...
Abstract—In this paper, we characterize the performance of an important class of scheduling schemes,...
In this paper, we characterize the performance of an important class of scheduling schemes, called g...
Abstract—In this paper, we characterize the performance of an important class of scheduling schemes,...
Efficient operation of wireless networks and switches requires using simple (and in some cases distr...
Due to its low complexity, Greedy Maximal Scheduling (GMS), also known as Longest Queue First (LQF),...
We consider the problem of throughput-optimal scheduling in wireless networks subject to interferenc...
Multiple Access Channels (MAC) enable a single node to transmit data simultaneously to multiple node...
Multiple Access Channels (MAC) enable a single node to trans-mit data simultaneously to multiple nod...
A major challenge in the design of wireless networks is the need for distributed scheduling algorith...
In this paper, we study the problem of utility max-imization in multi-hop wireless systems. To study...
Abstract — In this paper, we address the following question: given a specific placement of wireless ...
In recent years, there has been a significant amount of work done in developing low-complexity sched...
Several policies have recently been proposed for attaining the maximum throughput region, or a guara...
We address the question of providing throughput guarantees through distributed scheduling, which has...
Given a placement of wireless nodes in space and a traffic demand between pairs of nodes, can these ...
Abstract—In this paper, we characterize the performance of an important class of scheduling schemes,...
In this paper, we characterize the performance of an important class of scheduling schemes, called g...
Abstract—In this paper, we characterize the performance of an important class of scheduling schemes,...
Efficient operation of wireless networks and switches requires using simple (and in some cases distr...
Due to its low complexity, Greedy Maximal Scheduling (GMS), also known as Longest Queue First (LQF),...
We consider the problem of throughput-optimal scheduling in wireless networks subject to interferenc...
Multiple Access Channels (MAC) enable a single node to transmit data simultaneously to multiple node...
Multiple Access Channels (MAC) enable a single node to trans-mit data simultaneously to multiple nod...
A major challenge in the design of wireless networks is the need for distributed scheduling algorith...
In this paper, we study the problem of utility max-imization in multi-hop wireless systems. To study...
Abstract — In this paper, we address the following question: given a specific placement of wireless ...
In recent years, there has been a significant amount of work done in developing low-complexity sched...
Several policies have recently been proposed for attaining the maximum throughput region, or a guara...
We address the question of providing throughput guarantees through distributed scheduling, which has...
Given a placement of wireless nodes in space and a traffic demand between pairs of nodes, can these ...