Paper Info
Title
An Adaptive End-to-End Delay Assurance Algorithm with DiffServ Architecture in IEEE 802.11e/IEEE 802.16 Hybrid Mesh/Relay Networks
Abstract
Due to the high cost of construction and maintenance of infrastructure, engineers and researchers have focused their investigations on wireless mesh/relay networks with lower cost and high scalability. For current wireless mesh/relay networks, the end-to-end QoS guarantee is an important functionality because the demand for real-time multimedia communications has recently been increasing. Therefore, We propose an adaptive end-to-end delay assurance algorithm with the differentiated services architecture of hybrid mesh/relay networks with IEEE 802.16 and IEEE 802.11e to support a QoS guarantee for the mesh/relay networks. By simulating the mesh/relay networks using OPNET Modeler and analyzing the traffic of applications with different QoS requirements, we show that the proposed algorithm with the differentiated services architecture provides excellent end-to-end QoS support.
Year
DOI
Venue
2009
10.1109/ICCCN.2009.5235350
ICCCN
Keywords
Field
DocType
diffserv networks,hybrid mesh networks,wimax,relay networks,ieee 802.16,differentiated services architecture,quality of service,diffserv architecture,adaptive end-to-end delay assurance algorithm,wireless mesh networks,multimedia communications,opnet modeler,hybrid mesh,adaptive end-to-end delay assurance,end-to-end qos guarantee,telecommunication traffic,wireless relay networks,ieee 802.11e,hybrid relay networks,qos requirements,wireless lan,wireless mesh network,differentiated service,real time,end to end delay
Switched mesh,Computer science,IEEE 802.11s,Algorithm,Quality of service,Computer network,Order One Network Protocol,WiMAX,IEEE 802,Wireless mesh network,Relay,Distributed computing
Conference
ISSN
ISBN
Citations 
1095-2055 E-ISBN : 978-1-4244-4581-3
978-1-4244-4581-3
2
PageRank 
References 
Authors
0.44
6
2
Name
Order
Citations
PageRank
Myounghwan Lee183.37
John A. Copeland245660.84