Energy-efficient sensing mechanism for licensed-assisted access under non-saturated traffic condition

2017 23rd Asia-Pacific Conference on Communications (APCC) Pub Date : 2017-12-01 DOI:10.23919/APCC.2017.8304015

Yongjae Kim, Eunhye Park, Yujae Song, Youngnam Han

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引用次数: 2

Abstract

This paper investigates the energy-efficiency of licensed-assisted access (LAA) which enable long-term evolution systems to operate in unlicensed spectrum. Since Wi-Fi with 802.11 n/ac is a typical radio access technology in the unlicensed spectrum, we consider a scenario that the LAA small-cell base stations (SCBSs) are deployed together with Wi-Fi access points. We propose three different listen-before-talk (LBT) schemes according to the channel sensing mechanisms for LAA SCBC, and establish Markov chain models for each scheme under non-saturated traffic condition. Using these analytical models, the energy-efficiencies of LAA SCBSs that perform the different LBT schemes are investigated. We also propose the algorithm to obtain the optimal contention window size of LAA SCBSs by which total energy-efficiency of networks is maximized while satisfying the required energy-efficiency of both LAA and Wi-Fi networks. Numerical results show that the LBT scheme which has an efficient channel sensing mechanism outperforms the other LBT schemes for the energy-efficiency perspective.

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非饱和交通条件下许可辅助接入的节能感知机制

本文研究了许可辅助接入(LAA)的能源效率，使长期演进系统能够在无许可频谱中运行。由于802.11 n/ac Wi-Fi是一种典型的无线接入技术，我们考虑LAA小蜂窝基站(SCBSs)与Wi-Fi接入点一起部署的场景。根据LAA SCBC的信道感知机制，提出了三种不同的先听后讲(LBT)方案，并在非饱和交通条件下建立了每种方案的马尔可夫链模型。利用这些分析模型，研究了执行不同LBT方案的LAA scbs的能源效率。我们还提出了一种算法来获得LAA scbs的最优竞争窗口大小，在满足LAA和Wi-Fi网络要求的能效的同时，使网络的总能效最大化。数值结果表明，具有有效通道感知机制的LBT方案在能效方面优于其他LBT方案。

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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2017 23rd Asia-Pacific Conference on Communications (APCC)

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