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引用次数: 3
摘要
在LTE-Advanced (Long - Term Evolution Advanced)系统中引入中继技术,以扩大网络覆盖范围,提高蜂窝边缘用户设备(ue)的性能,增加不同终端之间的公平性。多输入多输出(MIMO)与继电器的结合可以进一步提高频率效率,改善系统性能。本文基于MIMO中继增强型TD-LTE-Advanced系统的体系结构,提出了一种具有公平性意识的资源分配算法,并将资源分配分为3个阶段:首先提出了一种频率资源分配方案,以实现各中继节点(RNs)服务的终端之间的公平性与系统吞吐量之间的权衡;其次,提出了一种减少反馈开销的eNB到中继传输与中继到UE传输匹配的回程资源分配算法;最后,给出了一种从eNB和中继到ue的资源分配算法,以最大化比例公平性,保证用户公平性。仿真结果表明,该算法可以在有限的反馈开销下提高系统吞吐量和用户公平性。
Fairness-Aware Resource Allocation in Relay-Enhanced TD-LTE-A Systems
Relay technique is introduced in the Long Term Evolution Advanced (LTE-Advanced) system to extend the network coverage, improve the performance of cell-edge user equipments (UEs) and increase the fairness among different UEs. The combination of multiple-input-multiple-output (MIMO) and relay can further increase frequency efficiency and improve system performance. In this paper, based on the architecture of MIMO relay-enhanced TD-LTE-Advanced system, a fairness -aware resource allocation algorithm is proposed, and the resource allocation is divided into 3 phases: a frequency resource partition scheme is firstly proposed to realize the tradeoff between fairness among UEs served by various relay nodes (RNs) and system throughput; secondly, a backhaul resource allocation algorithm is presented to match the eNB to relay transmission with the relay to UE transmission with reduced feedback overhead; finally, a resource allocation algorithm from eNB and relay to UEs is given to maximize the proportional fairness so that user fairness can be guaranteed. Simulation results show that both system throughput and user fairness can be improved with limited feedback overhead, using the proposed algorithms.
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