Polarized APSK modulation system with polymorphic SC signals

IF 1.5 4区计算机科学 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC

IET Communications Pub Date : 2024-08-28 DOI:10.1049/cmu2.12828

Peter O. Akuon

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引用次数: 0

Abstract

This paper discusses a new symbol modulation scheme known as polarized amplitude and phase shift keying, ( $P o l$ -APSK) modulation with four rings in its basic form. The new scheme maps power-polarized symbol pairs on its constellation in order to increase the number of data symbols. $P o l$ -APSK exploits a symbol mapper based on a conjugate power splitting algorithm. Product modulation is applied, where a voltage signal of a specified amplitude and phase is multiplied by another current signal of a specified amplitude and phase, thus forming polymorphic signals in the product constellation. At the receiver, an isolated detection is performed, where the voltage signal is detected independently of the received current signal. A selection combining scheme is then used. The results depict unity peak-to-average power ratio and low average symbol energy, which is desirable for Green communications in 5G networks. It presents lower bit error rates when compared with the state-of-the art $M$ -ary quadrature amplitude modulation, with a signal-to-noise ratio gap of at least $10 [dB]$ . The proposed analytical framework closely matches the simulations for bit error rates under $M = 16, 32, 64 P o l -APSK$ .

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具有多态 SC 信号的偏振 APSK 调制系统

本文讨论了一种新的符号调制方案，即极化振幅和相移键控（P o l $Pol$ -APSK）调制，其基本形式为四环。新方案将功率极化符号对映射到其星座上，以增加数据符号的数量。 P o l $Pol$ -APSK利用基于共轭功率分割算法的符号映射器。应用乘积调制时，一个指定幅度和相位的电压信号与另一个指定幅度和相位的电流信号相乘，从而在乘积星座中形成多态信号。在接收器上，进行隔离检测，即电压信号的检测与接收到的电流信号无关。然后使用选择组合方案。研究结果表明，峰均功率比和平均符号能量都很低，这对于 5G 网络中的绿色通信来说是非常理想的。与最先进的 M $M$ -ary 正交幅度调制相比，它具有更低的误码率，信噪比差距至少为 10 [ dB ] $10\; [\text{dB}]$。所提出的分析框架与 M = 16 , 32 , 64 P o l -APSK $M=16,32,64 P o l -APSK $ 下的误码率模拟结果非常吻合。

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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来源期刊

IET Communications 工程技术-工程：电子与电气

CiteScore

4.30

自引率

6.20%

发文量

220

审稿时长

5.9 months

期刊介绍： IET Communications covers the fundamental and generic research for a better understanding of communication technologies to harness the signals for better performing communication systems using various wired and/or wireless media. This Journal is particularly interested in research papers reporting novel solutions to the dominating problems of noise, interference, timing and errors for reduction systems deficiencies such as wasting scarce resources such as spectra, energy and bandwidth. Topics include, but are not limited to: Coding and Communication Theory; Modulation and Signal Design; Wired, Wireless and Optical Communication; Communication System Special Issues. Current Call for Papers: Cognitive and AI-enabled Wireless and Mobile - https://digital-library.theiet.org/files/IET_COM_CFP_CAWM.pdf UAV-Enabled Mobile Edge Computing - https://digital-library.theiet.org/files/IET_COM_CFP_UAV.pdf