Power efficient back-off reduction through polyphase filtering magnitude modulation

Gomes M.; Silva V.; Cercas F.; Tomlinson M.

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Power efficient back-off reduction through polyphase filtering magnitude modulation

机译：通过多相滤波幅度调制实现功率有效的后退降低

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A multistage polyphase magnitude modulation (MPMM) technique is proposed for single carrier (SC) modulations, to efficiently reduce the peak-to-average power ratio (PAPR) of the bandwidth limited signal resulting from root-raised cosine (RRC) filtering. We show that the application of back-off to the transmitter high-power amplifier (HPA), in order to avoid nonlinear distortion and thus spectral regrowth, can be almost eliminated, even at very low roll-off values, leading to systemÂ¿s high power efficiency. We also show that noise sensitivity due to MPMM is considerably minimized by improving the initial receiverÂ¿s soft-decoding estimates, based on the average positions of the MPMM constellation symbols.

机译：提出了一种针对单载波（SC）调制的多级多相幅度调制（MPMM）技术，以有效地降低由根提高余弦（RRC）滤波导致的带宽受限信号的峰均功率比（PAPR）。我们表明，即使在非常低的滚降值下，为了避免非线性失真并避免频谱再生，退回应用于发射机大功率放大器（HPA）的应用也几乎可以消除，从而导致系统的功率效率高。我们还显示，基于MPMM星座图符号的平均位置，通过改善初始接收器的软解码估计，可以大大降低MPMP引起的噪声敏感性。

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来源
《Communications Letters, IEEE》 |2009年第8期|p.606-608|共3页
作者
Gomes M.; Silva V.; Cercas F.; Tomlinson M.;
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作者单位

Instituto de Telecomunicacoes at the Department of Electrical and Computer Engineering of the University of Coimbra, 3030-290 Coimbra, Portugal (e-mail: {marco, vitor}@co.it.pt).;

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正文语种 eng
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Magnitude modulation; peak-to-average power ratio (PAPR); back-off; RRC filter; polyphase decomposition.;

机译：幅度调制;峰均功率比（PAPR）;后退RRC滤波器;多相分解。;

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Power efficient back-off reduction through polyphase filtering magnitude modulation

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