Effect of 802.11 Adaptive Exponential Backoffs on the Fluidity of Downlink Flows in Mesh Networks
Aziz, Adel; Karrer, Roger; Thiran, Patrick
2008

Files

Abstract

Efficient multihop traffic management is a need for successful Wireless Mesh Networks (WMNs) deployment. Using an analogy with fluid mechanism, we classify a flow as laminar if the packets flow smoothly from the Wired Access Point (WAP) over the mesh network, and as turbulent otherwise. We identify a particular but frequent collision scenario, which sets the flow to be turbulent, resulting in a strongly reduced downlink end-to-end throughput. We show that the exponential backoff mechanism in an 802.11WMN is responsible for this problem and suggest a modification of the current exponential backoff policy of 802.11 for WMNs. We support these findings both with simulations and real measurements on a testbed infrastructure.

Details

Title Effect of 802.11 Adaptive Exponential Backoffs on the Fluidity of Downlink Flows in Mesh Networks
Author(s) Aziz, Adel ; Karrer, Roger ; Thiran, Patrick
Published in WinMee
Conference WinMee 2008, Berlin, March 31 2008
Date 2008
Publisher WinMee
Other identifier(s) View record in Web of Science
Laboratories LCA
LCA3
Record Appears in Scientific production and competences > I&C - School of Computer and Communication Sciences > IC Archives > LCA3 - Computer Communications and Applications Laboratory 3
Scientific production and competences > I&C - School of Computer and Communication Sciences > IC Archives > LCA - Laboratory for Computer Communications and Applications
Peer-reviewed publications
Conference Papers
Work produced at EPFL
Published
Record creation date 2008-03-27

Actions

Preview