Title :
Achieving Congestion Diversity in Multi-Hop Wireless Mesh Networks
Author :
Bhorkar, A.A. ; Javidi, T. ; Snoeren, A.C.
Author_Institution :
Intel Corp, Santa Clara, CA, USA
Abstract :
This paper reports on a comprehensive study comparing congestion-aware routing algorithms for wireless mesh networks with a state-of-the-art shortest-path routing protocol: Link-Quality Source Routing (LQSR). In particular, a set of congestion-aware protocols in the literature, Backpressure (BP), Enhanced-Backpressure (E-BP) and Congestion Diversity Protocol (CDP) are suitably adapted for implementation on 802.11-compatible radios. A testbed consisting of 802.11g nodes is deployed to empirically compare the performance of these congestion-aware routing protocols against LQSR. The results show that, under moderate to heavy UDP traffic, CDP delivers significant improvement compared to LQSR in 80-90 percent of the instances studied, while backpressure-based routing algorithms (BP and E-BP) frequently show significant degradation with respect to LQSR for both UDP and TCP traffic.
Keywords :
diversity reception; routing protocols; telecommunication traffic; transport protocols; wireless LAN; wireless mesh networks; 802.11-compatible radios; TCP traffic; UDP traffic; congestion aware routing; congestion diversity protocol; congestion-aware protocols; enhanced-backpressure; link-quality source routing; multihop wireless mesh networks; shortest path routing protocol; Algorithm design and analysis; Interference; Routing; Routing protocols; Time measurement; Wireless communication; Wireless; ad-hoc networks; congestion; mesh networks; routing; test-bed implementation;
Journal_Title :
Mobile Computing, IEEE Transactions on
DOI :
10.1109/TMC.2014.2323076
