TITLE:
Wireless Hybrid QoS Architecture with an Enhancement of Fair Intelligent Congestion Control
AUTHORS:
Li Zheng, Doan B. Hoang, Ming Li
KEYWORDS:
Hybrid QoS for Wireless Network; Traffic Stream Admission Control; Traffic Specifications; Fair Intelligent Congestion Control
JOURNAL NAME:
Wireless Engineering and Technology,
Vol.3 No.3,
July
31,
2012
ABSTRACT: More subtle and explicit QoS control mechanisms are required at the radio access level, even though the simple and scalable Differentiated Services (DiffServ) QoS control model is acceptable for the core of the network. At the radio access level, 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; so streams of those session-based applications are admitted, established according to the traffic profile they require, and guaranteed. As the core in the Admission Control of the hybrid QoS architecture, 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 via mechanisms of packet scheduling, buffer management, feedback and adjustments. It manages effectively the overloading scenario by preventing traffic violation from uncontrolled traffic, and providing guarantee to the priority traffic in terms of guaranteed bandwidth allocation and specified delay.