6533b822fe1ef96bd127d8ec
RESEARCH PRODUCT
Self-configuring multipath intra-mesh infrastructure QoS based routing
Mounir FrikhaOlivier TogniHajer BargaouiNader Mbareksubject
Routing protocolDynamic Source RoutingPerformance Evaluation[ INFO ] Computer Science [cs]Computer scienceDistributed computingQoS routingEnhanced Interior Gateway Routing ProtocolWireless communicationnetwork simulator ns-3Wireless Routing Protocol02 engineering and technologyRouting protocolsBandwidth0202 electrical engineering electronic engineering information engineeringMP-IMRRmultipath routing based protocolWireless Mesh Network[INFO]Computer Science [cs][ SDV.IB ] Life Sciences [q-bio]/BioengineeringComputer architectureMP-IMRR protocolRoutingStatic routingZone Routing Protocolautonomic computing paradigmQoS based routing protocolbusiness.industrymultipath intramesh infrastructure routing protocolComputerSystemsOrganization_COMPUTER-COMMUNICATIONNETWORKSmultipath channels020206 networking & telecommunicationsMulti-path routingwireless mesh networksbackup routes conceptLink-state routing protocolself-configuring infrastructurequality of service020201 artificial intelligence & image processingHazy Sighted Link State Routing ProtocolSelf-configuring[SDV.IB]Life Sciences [q-bio]/Bioengineeringbusinessnetwork management systemsComputer networkdescription
International audience; Multi-path routing concept was largely exploited in wireless networks to provide benefits such as fault tolerance, load balancing, performance improvement in terms of latency, etc. In this paper, we propose a multi-path routing based protocol named MP-IMRR (Multi-path Intra-Mesh infrastructure Routing protocol) to improve our previously defined QoS based routing protocol for wireless mesh networks (i.e. IMRR). MP-IMRR is defined in order to achieve better reactivity and faster recovery from eventual route failures than the IMRR protocol by adopting the backup routes concept. Besides, given the complexity increase while considering network management systems, we adopt the autonomic computing paradigm to provide the IMRR routing protocol with self-configuring capabilities. We describe and analyze the simulation results of different scenarios conducted on the network simulator ns-3 to demonstrate the effectiveness of IMRR self-configuring scheme and MP-IMRR routing protocol in case of route failures.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2016-10-17 |