Quality of service and mobility for the wireless internet
WMI '01 Proceedings of the first workshop on Wireless mobile internet
ICITA '05 Proceedings of the Third International Conference on Information Technology and Applications (ICITA'05) Volume 2 - Volume 02
Extension of BGP to Support Multi-domain FICC-Diffserv Architecture
AINA '06 Proceedings of the 20th International Conference on Advanced Information Networking and Applications - Volume 01
Resource management and quality of service in third generation wireless networks
IEEE Communications Magazine
Supporting packet-data QoS in next generation cellular networks
IEEE Communications Magazine
Further analysis and tuning of registered multi-cycle polling in wireless medium access management
Proceedings of the 1st ACM workshop on High performance mobile opportunistic systems
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this simple and scalable Differentiated Services (DiffServ) QoS control model is acceptable for the core of the network. However, more explicit and stringent admission and reservation based QoS mechanisms are required in the wireless access segment of the network, where available resources are severely limited and the degree of traffic aggregation is not significant, thus rendering the DiffServ principles less effective. In this paper we present a suitable hybrid QoS architecture framework to address the problem. At the wireless access end, the local QoS mechanism is designed in the context of IEEE 802.11 WLAN with 802.11e QoS extensions. At the edge and over the DiffServ domain, the Fair Intelligent Congestion Control (FICC) algorithm is applied to provide fairness among traffic aggregates and control congestion at the bottleneck interface between the wireless link and the network core.