Add to ORKGWe consider achieving max-min fairness in 802.11e based multi-hop wireless networks. We propose an approach which makes use of the TXOP mechanism in combination with an automatic contention window size tuning algorithm based onchannel state sensing. Simulation results show that the proposed approach can provide a good approximation to per-flow max-min fairness and that this is achieved regardless of the active number of flows and when the channel is noisy
UnrestrictedThis work formally establishes that IEEE 802.11 yields exceptionally good performance in...
IEEE 802.11e is an extension of IEEE 802.11 that provides Quality of Service (QoS) for the applicati...
Fair bandwidth distribution among users remains a persistence issue in Wireless Mesh Networks (WMNs)...
We consider achieving max-min fairness in 802.11e based multi-hop wireless networks. We propose an a...
To mitigate the damaging impacts caused by interference and hidden terminals, it has been proposed t...
To mitigate the damaging impacts caused by interference and hidden terminals, it has proposed to us...
In this paper we build upon the recent observation that the 802.11 rate region is log-convex and, f...
TCP is known to be subject to poor performance in multi-hop mesh networks. While most work has focus...
Proportional unfairness exists in multi-hop wireless networks where IEEE 802.11 is employed as the m...
In this paper we introduce a tractable analytic model of throughput performance for general 802.11 m...
Ad hoc networks represent the current de-facto alternative for infrastructure-less environments, due...
Abstract—In this paper, it is shown that it is challenging to evaluate service fairness in multi-hop...
Ad hoc networks represent the current de-facto alternative for infrastructure-less environments, due...
Abstract—In IEEE 802.11 based Wireless Mesh Networks (WMNs), unfair bandwidth sharing may arise sinc...
The goal in this paper is to develop comprehensive protocol support in all layers to provide max-min...
UnrestrictedThis work formally establishes that IEEE 802.11 yields exceptionally good performance in...
IEEE 802.11e is an extension of IEEE 802.11 that provides Quality of Service (QoS) for the applicati...
Fair bandwidth distribution among users remains a persistence issue in Wireless Mesh Networks (WMNs)...
We consider achieving max-min fairness in 802.11e based multi-hop wireless networks. We propose an a...
To mitigate the damaging impacts caused by interference and hidden terminals, it has been proposed t...
To mitigate the damaging impacts caused by interference and hidden terminals, it has proposed to us...
In this paper we build upon the recent observation that the 802.11 rate region is log-convex and, f...
TCP is known to be subject to poor performance in multi-hop mesh networks. While most work has focus...
Proportional unfairness exists in multi-hop wireless networks where IEEE 802.11 is employed as the m...
In this paper we introduce a tractable analytic model of throughput performance for general 802.11 m...
Ad hoc networks represent the current de-facto alternative for infrastructure-less environments, due...
Abstract—In this paper, it is shown that it is challenging to evaluate service fairness in multi-hop...
Ad hoc networks represent the current de-facto alternative for infrastructure-less environments, due...
Abstract—In IEEE 802.11 based Wireless Mesh Networks (WMNs), unfair bandwidth sharing may arise sinc...
The goal in this paper is to develop comprehensive protocol support in all layers to provide max-min...
UnrestrictedThis work formally establishes that IEEE 802.11 yields exceptionally good performance in...
IEEE 802.11e is an extension of IEEE 802.11 that provides Quality of Service (QoS) for the applicati...
Fair bandwidth distribution among users remains a persistence issue in Wireless Mesh Networks (WMNs)...