Fairly allocating bandwidth to application sessions (flows) is difficult in Wireless Mesh Networks due to dynamics of wireless channel capacity and contention between flows on different nodes. Different scheduling algorithms have been applied to improve fairness in various scenarios. In this paper we propose a flow-based fairness scheme where a node determines its probability to send based on its flow requirements, and requirements of neighbor nodes. We propose novel methods for calculating this probability and distributing requirements to neighbors. Analysis shows our scheme can improve fairness, maintain high throughput, but at the expense of increased delay
Abstract — Wireless Mesh Networks (WMNs) represent a new and promising paradigm that uses multi-hop ...
Abstract—In IEEE 802.11 based Wireless Mesh Networks (WMNs), unfair bandwidth sharing may arise sinc...
We consider multi–hop wireless networks carrying unicast flows for multiple users. Each flow has a ...
Gordon, SD ORCiD: 0000-0003-4090-1199Fairly allocating bandwidth to application sessions (flows) is ...
International audienceWireless Mesh Networks are mainly used for providing last-mile broadband wirel...
The goal in this paper is to develop comprehensive protocol support in all layers to provide max-min...
We present a distributed fair MAC flow allocation and scheduling framework for IEEE 802.11 based wir...
In the past decade, IEEE 802.11 protocol, which is originally designed for wireless local area netwo...
Abstract—We consider multi–hop wireless networks carrying unicast flows for multiple users. Each flo...
This paper considers the problem of deriving a time-division multiple-access (TDMA) schedule for mul...
The unreliability of wireless mesh networks creates challenge in designing high performance wireless...
AbstractIn this paper we address the problem of scheduling in wireless mesh networks. First, we prov...
Abstract In this paper, we consider the problems of routing, end-to-end bandwidth demand allocation ...
Thesis (M.S.)--Wichita State University, College of Engineering, Dept. of Electrical Engineering.It ...
This paper represents the data rate allocation algorithms provide the average data rates at which th...
Abstract — Wireless Mesh Networks (WMNs) represent a new and promising paradigm that uses multi-hop ...
Abstract—In IEEE 802.11 based Wireless Mesh Networks (WMNs), unfair bandwidth sharing may arise sinc...
We consider multi–hop wireless networks carrying unicast flows for multiple users. Each flow has a ...
Gordon, SD ORCiD: 0000-0003-4090-1199Fairly allocating bandwidth to application sessions (flows) is ...
International audienceWireless Mesh Networks are mainly used for providing last-mile broadband wirel...
The goal in this paper is to develop comprehensive protocol support in all layers to provide max-min...
We present a distributed fair MAC flow allocation and scheduling framework for IEEE 802.11 based wir...
In the past decade, IEEE 802.11 protocol, which is originally designed for wireless local area netwo...
Abstract—We consider multi–hop wireless networks carrying unicast flows for multiple users. Each flo...
This paper considers the problem of deriving a time-division multiple-access (TDMA) schedule for mul...
The unreliability of wireless mesh networks creates challenge in designing high performance wireless...
AbstractIn this paper we address the problem of scheduling in wireless mesh networks. First, we prov...
Abstract In this paper, we consider the problems of routing, end-to-end bandwidth demand allocation ...
Thesis (M.S.)--Wichita State University, College of Engineering, Dept. of Electrical Engineering.It ...
This paper represents the data rate allocation algorithms provide the average data rates at which th...
Abstract — Wireless Mesh Networks (WMNs) represent a new and promising paradigm that uses multi-hop ...
Abstract—In IEEE 802.11 based Wireless Mesh Networks (WMNs), unfair bandwidth sharing may arise sinc...
We consider multi–hop wireless networks carrying unicast flows for multiple users. Each flow has a ...