Abstract/Description
Frequency is amongst the most exclusive and most costly resources in wireless communication networks, especially, while considering the demands of broadband wireless access (BWA). In BWA, the management of frequency distribution and its effective utilization is of utmost importance. This research explores possible ways to ensure the most effective allocation of bandwidth resources and their best possible utilization on need basis. The model for static frequency allocation has been optimized and the dynamic frequency management has been calculated while dividing the users in different user classes on the basis of their needs and requirements. The effect of ping-pong handovers has been handled by introducing an inter-base station handshake process, allowing effective management of fast moving users. Automated frequency distribution, management and assignment (AFDMA) provides maximum bandwidth optimization in order to ensure increased network performance and quality of service (QoS).
Keywords
Location
Eiffel 3
Session Theme
Wireless Networks
Session Type
Other
Session Chair
https://ieeexplore.ieee.org/document/5267206
Start Date
16-8-2009 3:05 PM
End Date
16-8-2009 3:25 PM
Recommended Citation
Shehzad, K., Ali, A., Rasool, F., Hashmi, R. M., Zubair, A., & Ali, R. L. (2009). Wireless Networks: Automated Frequency Distribution, Management & Assignment (AFDMA) in IEEE 802.16. International Conference on Information and Communication Technologies. Retrieved from https://ir.iba.edu.pk/icict/2009/2009/16
Included in
Digital Communications and Networking Commons, OS and Networks Commons, Technology and Innovation Commons
Wireless Networks: Automated Frequency Distribution, Management & Assignment (AFDMA) in IEEE 802.16
Eiffel 3
Frequency is amongst the most exclusive and most costly resources in wireless communication networks, especially, while considering the demands of broadband wireless access (BWA). In BWA, the management of frequency distribution and its effective utilization is of utmost importance. This research explores possible ways to ensure the most effective allocation of bandwidth resources and their best possible utilization on need basis. The model for static frequency allocation has been optimized and the dynamic frequency management has been calculated while dividing the users in different user classes on the basis of their needs and requirements. The effect of ping-pong handovers has been handled by introducing an inter-base station handshake process, allowing effective management of fast moving users. Automated frequency distribution, management and assignment (AFDMA) provides maximum bandwidth optimization in order to ensure increased network performance and quality of service (QoS).