Polarization-enabled spectrum opportunities made practical: Polarization Mode Dispersion and learning-throughput tradeoff

2014 21st International Conference on Telecommunications (ICT) Pub Date : 2014-05-04 DOI:10.1109/ICT.2014.6845120

Dongming Li, Caili Guo, Xiaolin Lin, Rong Qiao

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引用次数: 2

Abstract

Polarization-enabled Spectrum Sharing (PSS) that exploits the spectrum opportunities in polarization domain is deployed to balance between avoiding interference at the incumbent receiver and optimizing the throughput of secondary user. However, when it comes to wideband environments, PSS is impaired by the frequency-dependent Polarization Mode Dispersion (PMD) effect, thus the spectrum efficiency of PSS drops. Different from previous studies on PSS without taking the frequency-dependent depolarization effect into consideration, this work firstly analyzes the PMD effect and then proposes a cluster-based PSS approach to enable PSS on a narrower frequency span for LTE user. Since the width of the frequency span impacts both the environment learning time overhead and the PMD effect suffered by PSS, we analytically incorporate the PMD effect into LTE throughput and the interference at the incumbent receiver. By this means, the optimal number of subcarriers is derived to maximize the effective throughput for LTE users, subject to the interference power constraint at the incumbent receiver.

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使偏振频谱机会成为现实:偏振模式色散和学习吞吐量权衡

极化频谱共享(PSS)利用极化域的频谱机会，在避免现有接收机的干扰和优化辅助用户的吞吐量之间取得平衡。然而，在宽带环境下，PSS会受到频率相关偏振模色散(PMD)效应的影响，从而导致PSS的频谱效率下降。与以往不考虑频率相关去极化效应的PSS研究不同，本文首先分析了PMD效应，然后提出了一种基于集群的PSS方法，使PSS能够在更窄的频率范围内为LTE用户提供服务。由于频率跨度的宽度会影响环境学习时间开销和PSS遭受的PMD效应，因此我们将PMD效应分析地纳入LTE吞吐量和现任接收器的干扰中。通过这种方法，在受现有接收机干扰功率约束的情况下，推导出最优子载波数，以最大限度地提高LTE用户的有效吞吐量。

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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2014 21st International Conference on Telecommunications (ICT)

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