Fair Adaptive Cross-Layer Resource Allocation Scheme for IEEE 802.16 Broadband Wireless Networks

In a WiMAX network, the Medium Access Control (MAC) protocol deals with resource allocation to different types of traffic. The key components that ensure Quality of Service (QoS) guarantees in a WiMAX network include Call Admission Control (CAC), Bandwidth and Burst allocation. In this Paper, a Cros...

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Veröffentlicht in:	Wireless personal communications 2021-04, Vol.117 (4), p.2645-2666
Hauptverfasser:	Deva Priya, M., Sangeetha, M., Christy Jeba Malar, A., Dhivyaprabha, E., Kiruthiga, N., Rajarajeswari, PL
Format:	Artikel
Sprache:	eng
Schlagworte:	Access control Admission control Bandwidths Broadband Communications Engineering Computer Communication Networks Delay Engineering Interoperability Networks Quality of service architectures Resource allocation Signal,Image and Speech Processing Wireless communications Wireless networks
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creator	Deva Priya, M. Sangeetha, M. Christy Jeba Malar, A. Dhivyaprabha, E. Kiruthiga, N. Rajarajeswari, PL
description	In a WiMAX network, the Medium Access Control (MAC) protocol deals with resource allocation to different types of traffic. The key components that ensure Quality of Service (QoS) guarantees in a WiMAX network include Call Admission Control (CAC), Bandwidth and Burst allocation. In this Paper, a Cross-layer framework is designed to efficiently allocate resources to various classes of traffic. CAC and Bandwidth allocation are dealt in the MAC layer, while Burst allocation in the PHYsical layer. The predominant goal of this work is to reduce delay and Information Element (IE) overheads by efficiently utilizing the available frame space. The History based CAC (HCAC) proposed in this paper deals with call acceptance based on the Contention Window (CW) values. The History based Bandwidth Allocation (HBA) scheme deals with allocating bandwidth based on Consumption and Equity measures. The proposed tightly coupled Delay Tolerance based Scheduler (DTS) and Bucket based Burst Allocator (BBA) allocate resources by prioritizing flows with least delay tolerance. It is seen that the proposed schemes offer better performance in contrast to the existing benchmarked schemes in terms of Throughput, Average Delay and Packet Loss Ratio (PLR).
doi_str_mv	10.1007/s11277-019-06929-3
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subjects	Access control Admission control Bandwidths Broadband Communications Engineering Computer Communication Networks Delay Engineering Interoperability Networks Quality of service architectures Resource allocation Signal,Image and Speech Processing Wireless communications Wireless networks
title	Fair Adaptive Cross-Layer Resource Allocation Scheme for IEEE 802.16 Broadband Wireless Networks
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