The scheduling problem in multi-hop wireless networks has been extensively investigated. Although throughput optimal scheduling solutions have been developed in the literature, they are unsuitable for multi-hop wireless systems because they are usually centralized and have very high complexity. In this paper, we develop a random-access based scheduling scheme that utilizes local information. The important features of this scheme include constant-time complexity, distributed operations, and a provable performance guarantee. Analytical results show that it guarantees a larger fraction of the optimal throughput performance than the state-of-the-art. Through simulations with both single-hop and multi-hop traffics, we observe that the scheme pro...
This paper presents novel distributed algorithms for scheduling trans-missions in multi-hop wireless...
Multiple Access Channels (MAC) enable a single node to transmit data simultaneously to multiple node...
The question of providing throughput guarantees through distributed scheduling, which has remained a...
Problems of optimizing the performance of wired and wireless networks have been widely studied in re...
In this paper, we develop distributed random access scheduling schemes that exploit the time-varying...
Abstract—In this paper, we characterize the performance of an important class of scheduling schemes,...
Abstract—With K-hop interference model, especially when K ≥ 2, the throughput-optimal centralized sc...
Abstract—In this paper, we characterize the performance of an important class of scheduling schemes,...
In recent years, there has been a significant amount of work done in developing low-complexity sched...
In this paper, we characterize the performance of an important class of scheduling schemes, called g...
Abstract — We investigate the fairness and throughput properties of a simple distributed scheduling ...
Abstract-We propose a randomized distributed scheduling algorithm which can achieve the optimal thro...
We study the performance of greedy scheduling in multihop wireless networks where the objective is a...
Abstract—This paper proposes a new class of simple, dis-tributed algorithms for scheduling in multi-...
Most distributed wireless scheduling schemes that are provably efficient have been developed under t...
This paper presents novel distributed algorithms for scheduling trans-missions in multi-hop wireless...
Multiple Access Channels (MAC) enable a single node to transmit data simultaneously to multiple node...
The question of providing throughput guarantees through distributed scheduling, which has remained a...
Problems of optimizing the performance of wired and wireless networks have been widely studied in re...
In this paper, we develop distributed random access scheduling schemes that exploit the time-varying...
Abstract—In this paper, we characterize the performance of an important class of scheduling schemes,...
Abstract—With K-hop interference model, especially when K ≥ 2, the throughput-optimal centralized sc...
Abstract—In this paper, we characterize the performance of an important class of scheduling schemes,...
In recent years, there has been a significant amount of work done in developing low-complexity sched...
In this paper, we characterize the performance of an important class of scheduling schemes, called g...
Abstract — We investigate the fairness and throughput properties of a simple distributed scheduling ...
Abstract-We propose a randomized distributed scheduling algorithm which can achieve the optimal thro...
We study the performance of greedy scheduling in multihop wireless networks where the objective is a...
Abstract—This paper proposes a new class of simple, dis-tributed algorithms for scheduling in multi-...
Most distributed wireless scheduling schemes that are provably efficient have been developed under t...
This paper presents novel distributed algorithms for scheduling trans-missions in multi-hop wireless...
Multiple Access Channels (MAC) enable a single node to transmit data simultaneously to multiple node...
The question of providing throughput guarantees through distributed scheduling, which has remained a...