The performance anomaly experienced by nodes in multi-rate wireless local area networks (WLANs) leads to low throughput and unfairness. To this end, we propose a distributed, token-based approach that allows applications to control nodes channel occupancy time via a single tuning knob. Our approach makes use of local information extensively and does not require any modifications to the IEEE 802.11 MAC nor require explicit signaling. Simulation results show our approach to be effective in ensuring fairness, and isolating high and low rate flows
In this paper, we study temporal fairness in multi-rate wireless networks using IEEE802.11e. In mult...
[[abstract]]IEEE 802.11 Wireless Local Area Network (WLAN) Physical Layer (PHY) offers multiple data...
K. Chin, "A distributed time-fair scheduling algorithm for multi-rate WLANs, " in Australi...
Abstract — The performance anomaly experienced by nodes in multi-rate wireless local area networks (...
The performance anomaly experienced by nodes in multi-rate wireless local area networks (WLANs) lead...
WLANs employing IEEE802.11 standards suffer from a performance anomaly that drags down the fast node...
Abstract: Fairness is an important issue when we access a shared wireless channel. Using fair schedu...
Abstract — The IEEE 802.11 protocol provides a physical multi-rate capability. Existing auto rate sc...
Conventional multi-rate IEEE 802.11 Wireless LANs (WLANs) are associated with the so-called performa...
SUMMARY ∗ Much research has shown that a carefully de-signed auto rate medium access control can uti...
Since IEEE has a standardized 802.11 protocol for wireless local-area networks (WLANs), significant ...
Abstract—This paper focuses on designing a distributed medi-um access control algorithm that aims at...
In previous works we have introduced the DTT (Deficit Transmission Time) scheduler, an algorithm to ...
Supporting real time multimedia applications is of utmost importance for future wireless data netwo...
Low throughput due to unfairness is a key problem in multirate wireless local area networks. To prom...
In this paper, we study temporal fairness in multi-rate wireless networks using IEEE802.11e. In mult...
[[abstract]]IEEE 802.11 Wireless Local Area Network (WLAN) Physical Layer (PHY) offers multiple data...
K. Chin, "A distributed time-fair scheduling algorithm for multi-rate WLANs, " in Australi...
Abstract — The performance anomaly experienced by nodes in multi-rate wireless local area networks (...
The performance anomaly experienced by nodes in multi-rate wireless local area networks (WLANs) lead...
WLANs employing IEEE802.11 standards suffer from a performance anomaly that drags down the fast node...
Abstract: Fairness is an important issue when we access a shared wireless channel. Using fair schedu...
Abstract — The IEEE 802.11 protocol provides a physical multi-rate capability. Existing auto rate sc...
Conventional multi-rate IEEE 802.11 Wireless LANs (WLANs) are associated with the so-called performa...
SUMMARY ∗ Much research has shown that a carefully de-signed auto rate medium access control can uti...
Since IEEE has a standardized 802.11 protocol for wireless local-area networks (WLANs), significant ...
Abstract—This paper focuses on designing a distributed medi-um access control algorithm that aims at...
In previous works we have introduced the DTT (Deficit Transmission Time) scheduler, an algorithm to ...
Supporting real time multimedia applications is of utmost importance for future wireless data netwo...
Low throughput due to unfairness is a key problem in multirate wireless local area networks. To prom...
In this paper, we study temporal fairness in multi-rate wireless networks using IEEE802.11e. In mult...
[[abstract]]IEEE 802.11 Wireless Local Area Network (WLAN) Physical Layer (PHY) offers multiple data...
K. Chin, "A distributed time-fair scheduling algorithm for multi-rate WLANs, " in Australi...