Cross-Layer Adaptive Resource Allocation Algorithm For Wireless Communications Networks

IEEE GLOBECOM 2008 - 2008 IEEE Global Telecommunications Conference Pub Date : 2008-12-08 DOI:10.1109/GLOCOM.2008.ECP.1042

Karim E. Morsy, F. Digham, M. Nafie, A. Elezabi

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引用次数: 1

Abstract

In this paper, a cross-layer adaptive resource allocation (XARA) algorithm for channel division based systems, such as OFDMA, is proposed. XARA design is based on a PHY-MAC cross-layer approach which yields better channel utilization compared to separate PHY or MAC designs. XARA uses a joint power and channel allocation algorithm to determine both the channel assignment and the transmission power for each user in order to maximize the overall system capacity. Through an iterative algorithm, XARA enhances the channel utilization by taking into account the demands of the users so as to assign the minimum number of time slots needed to fulfill the requirements of each user. The saved time slots are reported to the scheduling and admission control functions of the MAC layer in order to either allow more users to enter the network or to allow the current users to request more quality of service "QoS" sessions. The proposed algorithm can fit in different wireless systems such as WIMAX and LTE. The algorithm is also flexible enough to accommodate the dynamic nature of the spectrum in the case of cognitive radio networks and considers the power constraints associated with such networks.

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无线通信网络跨层自适应资源分配算法

针对基于信道划分的系统，如OFDMA，提出了一种跨层自适应资源分配(XARA)算法。XARA设计基于物理-MAC跨层方法，与单独的PHY或MAC设计相比，可以产生更好的信道利用率。XARA使用联合功率和信道分配算法来确定每个用户的信道分配和传输功率，以最大化系统的总体容量。XARA通过迭代算法，考虑用户的需求，分配满足每个用户需求所需的最小时隙数，从而提高信道利用率。节省的时隙被报告给MAC层的调度和接纳控制功能，以便允许更多的用户进入网络，或者允许当前用户请求更多的服务质量(QoS)会话。该算法适用于不同的无线系统，如WIMAX和LTE。该算法还具有足够的灵活性，可以适应认知无线电网络中频谱的动态特性，并考虑到与此类网络相关的功率限制。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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IEEE GLOBECOM 2008 - 2008 IEEE Global Telecommunications Conference

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