Genetic Algorithm Optimized Memory Polynomial digital pre-distorter for RF power amplifiers

2013 International Conference on Wireless Communications and Signal Processing Pub Date : 2013-12-02 DOI:10.1109/WCSP.2013.6677117

Riaz Mondal, T. Ristaniemi, Munzura Doula

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引用次数: 10

Abstract

Digital pre-distortion (DPD) is an efficient way of linearizing RF power amplifiers in wireless communications transmitters. Memory Polynomial and Generalized Memory Polynomial methods are two such successful methods capable of reducing spectral regrowth of high power amplifiers with memory effect. However, these methods often need a large number of coefficients, which makes these methods less cost efficient. In this paper we present an effective method based on Genetic Algorithm to simultaneously reduce the number of coefficient and optimize the performance of Memory Polynomial (MP) and Generalized Memory Polynomial (GMP) Radio Frequency (RF) power amplifier pre-distorters. The proposed method is validated using a single carrier WCDMA signal using an indirect learning architecture. In comparison with the MP model, the proposed model shows improved adjacent channel power ratio performance in the DPD application with 42% reduction in the number of coefficients. In comparison with the GMP model, the proposed model achieves higher model accuracy and better DPD performance, but reduces 25% of coefficients.

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基于遗传算法优化的射频功率放大器记忆多项式数字预失真器

数字预失真(DPD)是无线通信发射机中射频功率放大器线性化的有效方法。记忆多项式法和广义记忆多项式法是降低具有记忆效应的大功率放大器频谱再生的两种成功方法。然而，这些方法往往需要大量的系数，这使得这些方法的成本效益较低。本文提出了一种基于遗传算法的射频功率放大器预失真器的有效方法，以同时减少记忆多项式(MP)和广义记忆多项式(GMP)预失真器的系数个数并优化其性能。采用间接学习结构对单载波WCDMA信号进行了验证。与MP模型相比，该模型在DPD应用中的相邻信道功率比性能得到了改善，系数数减少了42%。与GMP模型相比，该模型具有更高的模型精度和更好的DPD性能，但降低了25%的系数。

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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2013 International Conference on Wireless Communications and Signal Processing

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