A performance prediction model for BIC-OFDM transmissions with AMC over nonlinear fading channels

2011 8th International Workshop on Multi-Carrier Systems & Solutions Pub Date : 2011-05-03 DOI:10.1109/MC-SS.2011.5910726

F. Giannetti, I. Stupia, V. Lottici, R. Andreotti, A. D'andrea, L. Vandendorpe

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Abstract

This paper presents an accurate tool yielding a reliable prediction of the link quality for the down-link of a BIC-OFDM system featuring bandlimited pulse shaping to control spectral sidelobe emission, plus AMC, and operating over a nonlinear channel. The tool enables an effective design of the communication system, with special respect to the setting of the operating point of the transmitter's power amplifier. First, an analytical characterization of the nonlinear distortion effects caused by the amplifier on bandlimited BIC-OFDM signals is carried out by resorting to the extended version of the Bussgang theorem. Then, the equivalent additive noise model provided by the Bussgang-based analysis is taken into account in the derivation of a novel link quality prediction method, named BκESM. Finally, the novel BκESM tool is employed in the link design phase for choosing the best amplifier setting, aimed at maximizing the layer-3 offered traffic over a realistic wireless channel, featuring both multipath propagation and nonlinear distortions.

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非线性衰落信道下带AMC的BIC-OFDM传输性能预测模型

本文提出了一种精确的工具，可以可靠地预测BIC-OFDM系统的下行链路质量，该系统具有带限脉冲整形以控制频谱旁瓣发射，加上AMC，并在非线性信道上运行。该工具能够有效地设计通信系统，特别是关于发射机功率放大器工作点的设置。首先，利用扩展版的Bussgang定理对放大器对带宽受限的BIC-OFDM信号造成的非线性失真效应进行了分析表征。然后，考虑bussgang分析提供的等效加性噪声模型，推导出一种新的链路质量预测方法BκESM。最后，在链路设计阶段采用了新颖的BκESM工具来选择最佳放大器设置，旨在通过具有多径传播和非线性失真的真实无线信道最大化第三层提供的流量。

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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2011 8th International Workshop on Multi-Carrier Systems & Solutions

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