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引用次数: 0
摘要
由于电池或能源成本的考虑,网络设备通常需要满足长期的平均能量限制。在本文中,我们设计了一个简单的贪婪链路调度策略,其中每个发送节点都有一个相关联的长期平均能量约束。通过使用本地池化因子(Local Pooling Factor, LPF)来表征其性能,我们证明了贪婪关闭发送节点的策略足以产生良好的吞吐量性能,LPF是以前用于表征无线网络中贪婪最大调度(Greedy maximum Scheduling, GMS)性能的参数。然后,我们通过数值实验证明,对于链路最初使用固定发射功率的网络,使用两个发射功率水平的联合贪婪调度和功率控制策略与贪婪最大调度(GMS)相比消耗更少的平均发射功率,同时表现出与GMS相似的吞吐量性能。通过这些结果,我们建立了贪婪调度如何与功率控制相结合,以获得可证明的吞吐量性能保证,同时满足无线网络中的长期平均功率约束。
Energy efficient greedy link scheduling in wireless networks
Network devices are often required to meet long term average energy constraints due to battery or energy cost considerations. In this paper, we design a simple greedy link scheduling policy for networks in which every transmitter node has an associated long term-average energy constraint. We show that a policy that greedily switches the transmitter node off is sufficient to yield a good throughput performance by characterizing its performance using the Local Pooling Factor (LPF), a parameter previously used to characterize the performance of Greedy Maximal Scheduling (GMS) in wireless networks. We then demonstrate via numerical experiments that for a network in which links originally use a fixed transmit power, a joint greedy scheduling and power control policy that uses two transmit power levels consumes lesser average transmit power compared to Greedy Maximal Scheduling (GMS), while exhibiting similar throughput performance as that of GMS. Through these results, we establish how greedy scheduling can be combined with power control to obtain provable throughput performance guarantees, while also satisfying long term average power constraints in wireless networks.
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