Abstract—In this paper, we characterize the performance of an important class of scheduling schemes, called Greedy Maximal Scheduling (GMS), for multi-hop wireless networks. While a lower bound on the throughput performance of GMS is relatively well-known in the simple node-exclusive interference model, it has not been thoroughly explored in the more general K-hop interference model. Moreover, empirical observations suggest that the known bounds are quite loose, and that the performance of GMS is often close to optimal. In this paper, we provide a number of new analytic results characterizing the performance limits of GMS. We first provide an equivalent characterization of the efficiency ratio of GMS through a topological property called th...
We study the performance of greedy scheduling in multihop wireless networks where the objective is a...
Abstract — We investigate the fairness and throughput properties of a simple distributed scheduling ...
Multiple Access Channels (MAC) enable a single node to trans-mit data simultaneously to multiple nod...
Abstract—In this paper, we characterize the performance of an important class of scheduling schemes,...
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...
Greedy Maximal Matching (GMM) is an important scheduling scheme for multi-hop wireless networks. It ...
Due to its low complexity, Greedy Maximal Scheduling (GMS), also known as Longest Queue First (LQF),...
Efficient operation of wireless networks and switches requires using simple (and in some cases distr...
The scheduling problem in multi-hop wireless networks has been extensively investigated. Although th...
In recent years, there has been a significant amount of work done in developing low-complexity sched...
Problems of optimizing the performance of wired and wireless networks have been widely studied in re...
We study the performance of greedy scheduling in multihop wireless networks where the objective is a...
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...
We study the performance of greedy scheduling in multihop wireless networks where the objective is a...
Abstract — We investigate the fairness and throughput properties of a simple distributed scheduling ...
Multiple Access Channels (MAC) enable a single node to trans-mit data simultaneously to multiple nod...
Abstract—In this paper, we characterize the performance of an important class of scheduling schemes,...
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...
Greedy Maximal Matching (GMM) is an important scheduling scheme for multi-hop wireless networks. It ...
Due to its low complexity, Greedy Maximal Scheduling (GMS), also known as Longest Queue First (LQF),...
Efficient operation of wireless networks and switches requires using simple (and in some cases distr...
The scheduling problem in multi-hop wireless networks has been extensively investigated. Although th...
In recent years, there has been a significant amount of work done in developing low-complexity sched...
Problems of optimizing the performance of wired and wireless networks have been widely studied in re...
We study the performance of greedy scheduling in multihop wireless networks where the objective is a...
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...
We study the performance of greedy scheduling in multihop wireless networks where the objective is a...
Abstract — We investigate the fairness and throughput properties of a simple distributed scheduling ...
Multiple Access Channels (MAC) enable a single node to trans-mit data simultaneously to multiple nod...