Long Range Wireless Technology

Thus, an excellent bandwidth allocation algorithm with channel quality awareness and QoS guarantee, called CQQ, is proposed. 472479, 22nd International Conference on Advanced Information Networking and Applications aina 2008 pp. Back to Top Additional Information Citation YuanCheng Lai, YenHung Chen, A Channel Quality and QoS Aware Bandwidth Allocation Algorithm for IEEE Base Stations, aina, pp.

Simulation results demonstrate that CQQ provides lower delay violation ratio and higher goodput, comparing with the previous algorithms. 472479A Channel Quality and QoS Aware Bandwidth Allocation Algorithm for IEEE Base Stations YuanCheng Lai YenHung Chen Full Article Text DOI Bookmark Send link to friend Abstract In an IEEE network, mobile stations locating different places will encounter various interferences during transmission, leading that their communication channels experience different packet loss conditions and adopt suitable modulations.

Simulation results demonstrate that CQQ provides lower delay violation ratio and higher goodput, comparing with the previous algorithms. 472479, 22nd International Conference on Advanced Information Networking and Applications aina 2008 pp.

In this paper, bandwidth allocation algorithm should not only satisfy various Quality of Services QoS required by heterogeneous traffic, but also consider the channel quality to maximize bandwidth utilization.

Besides satisfying each connections QoS requirement, CQQ raises the throughput by dynamically adjusting the DownlinkUplink DLUL bandwidth to match current DLUL traffic and allocating more bandwidth to the connections having better channel quality. Thus, an excellent bandwidth allocation algorithm with channel quality awareness and QoS guarantee, called CQQ, is proposed. 472479, 22nd International Conference on Advanced Information Networking and Applications aina 2008, an IEEE network, mobile stations locating different places will encounter various interferences during transmission, leading that their communication channels experience different packet loss conditions and adopt suitable modulations.

Besides satisfying each connections QoS requirement, CQQ raises the throughput by dynamically adjusting the DownlinkUplink DLUL bandwidth to match current DLUL traffic and allocating more bandwidth

Besides satisfying each connections QoS requirement, CQQ raises the throughput by dynamically adjusting the DownlinkUplink DLUL bandwidth to match current DLUL traffic and allocating more bandwidth to the connections having better channel quality. Simulation results demonstrate that CQQ provides lower delay violation ratio and higher goodput, comparing with the previous algorithms.