Abstract — We address the problem of identifying high throughput paths in 802.11 wireless mesh networks. We introduce an analytical model that accurately captures the 802.11 MAC protocol operation and predicts both throughput and delay of multi-hop flows under changing traffic load or routing decisions. The main idea is to characterize each link by the packet loss probability and by the fraction of busy time sensed by the link transmitter, and to capture both intra-flow and inter-flow interference. Our model reveals that the busy time fraction experienced by a node, a locally measurable quantity, is essential in finding maximum throughput paths. Furthermore, metrics that do not take this quantity into account can yield low throughput by rou...
Multi-hop wireless networks lack widespread deployment due to their performance issues. There are ve...
In this paper, we address the problem of QoS support in an heterogeneous multi-rate wireless mesh ne...
Abstract—Wireless Mesh Networks (WMNs) have gained a lot of attention recently. Due to the character...
International audienceThis paper presents two novel metrics, Link Occupancy aware routing Metric (LO...
Abstract—Today’s 802.11-based wireless network interface cards (WNICs) can leverage multiple transmi...
Abstract — We propose a new metric, called the attainable capacity (ACAP) aware routing metric, ...
We present a practical, measurement-based model that captures the effect of interference in 802.11-b...
In IEEE 802.11-based wireless mesh networks, routingis crucial in achieving high throughput in face ...
Routing metrics proposed for Wireless Mesh Networks (WMNs) has various concerns like hop count, pack...
We introduce a tractable analytic model of throughput performance for general 802.11 multi-hop multi...
Abstract In this paper, we present a throughput-maximizing routing metric, referred to as expected f...
Conference PaperMultihop wireless mesh networks can provide Internet access over a wide area with mi...
The IEEE 802.11s draft is the first attempt to develop a standard fully intended for the rapidly gro...
lyon.fr IEEE 802.11 is implemented in many wireless networks, in-cluding multi-hop networks where co...
In wireless mesh networks (WMNs), gateway nodes may become a severe bottleneck for Internet flows. I...
Multi-hop wireless networks lack widespread deployment due to their performance issues. There are ve...
In this paper, we address the problem of QoS support in an heterogeneous multi-rate wireless mesh ne...
Abstract—Wireless Mesh Networks (WMNs) have gained a lot of attention recently. Due to the character...
International audienceThis paper presents two novel metrics, Link Occupancy aware routing Metric (LO...
Abstract—Today’s 802.11-based wireless network interface cards (WNICs) can leverage multiple transmi...
Abstract — We propose a new metric, called the attainable capacity (ACAP) aware routing metric, ...
We present a practical, measurement-based model that captures the effect of interference in 802.11-b...
In IEEE 802.11-based wireless mesh networks, routingis crucial in achieving high throughput in face ...
Routing metrics proposed for Wireless Mesh Networks (WMNs) has various concerns like hop count, pack...
We introduce a tractable analytic model of throughput performance for general 802.11 multi-hop multi...
Abstract In this paper, we present a throughput-maximizing routing metric, referred to as expected f...
Conference PaperMultihop wireless mesh networks can provide Internet access over a wide area with mi...
The IEEE 802.11s draft is the first attempt to develop a standard fully intended for the rapidly gro...
lyon.fr IEEE 802.11 is implemented in many wireless networks, in-cluding multi-hop networks where co...
In wireless mesh networks (WMNs), gateway nodes may become a severe bottleneck for Internet flows. I...
Multi-hop wireless networks lack widespread deployment due to their performance issues. There are ve...
In this paper, we address the problem of QoS support in an heterogeneous multi-rate wireless mesh ne...
Abstract—Wireless Mesh Networks (WMNs) have gained a lot of attention recently. Due to the character...