Capacity analysis under generalized composite fading conditions

2018 International Conference on Advanced Communication Technologies and Networking (CommNet) Pub Date : 2018-05-17 DOI:10.1109/COMMNET.2018.8360282

P. Sofotasios, Seong Ki Yoo, Nidhi Bhargav, S. Muhaidat, S. Cotton, M. Matthaiou, M. Valkama, G. Karagiannidis

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引用次数: 8

Abstract

Novel composite fading models were recently proposed based on inverse gamma distributed shadowing conditions. These models were extensively shown to provide remarkable modeling of the simultaneous occurrence of multipath fading and shadowing phenomena in emerging wireless scenarios such as cellular, off-body and vehicle-to-vehicle communications. Furthermore, the algebraic representation of these models is rather tractable, which renders them convenient to handle both analytically and numerically. The present contribution presents the major theoretical and practical characteristics of the η — μ / inverse gamma composite fading model, followed by a thorough ergodic capacity analysis. To this end, novel analytic expressions are derived, which are subsequently used in the evaluation of the corresponding system performance. In this context, the offered results are compared with respective results from cases assuming conventional fading conditions, which leads to the development of numerous insights on the effect of the multipath fading and shadowing severity on the achieved capacity levels. It is expected that these results will be useful in the design of timely and highly demanding wireless technologies, such as wearable, cellular and inter-vehicular communications as well in wireless power transfer based applications in the context of the Internet of Things.

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广义复合衰落条件下的容量分析

近年来提出了一种基于反伽马分布阴影条件的复合衰落模型。这些模型被广泛地证明为新兴无线场景(如蜂窝、离体和车对车通信)中同时发生的多径衰落和阴影现象提供了卓越的建模。此外，这些模型的代数表示是相当容易处理的，这使得它们便于分析和数值处理。本文介绍了η - μ /逆γ复合衰落模型的主要理论和实际特点，并进行了全面的遍历容量分析。为此，导出了新的解析表达式，并将其用于相应系统性能的评价。在这种情况下，将提供的结果与假设传统衰落条件下的结果进行了比较，从而对多径衰落和阴影严重程度对实现容量水平的影响产生了许多见解。预计这些结果将有助于设计及时且要求很高的无线技术，例如可穿戴、蜂窝和车际通信，以及物联网背景下基于无线电力传输的应用。

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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2018 International Conference on Advanced Communication Technologies and Networking (CommNet)

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