Adaptive Digital Predistortion for Wideband High Crest Factor Applications Based on the WACP Optimization Objective: An Extended Analysis

Laki B. D.; Kikkert C. J.

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Adaptive Digital Predistortion for Wideband High Crest Factor Applications Based on the WACP Optimization Objective: An Extended Analysis

机译：基于WACP优化目标的宽带高波峰因数应用的自适应数字预失真目标：扩展分析

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This paper provides an extended analysis of the adaptive digital predistortion technique initially proposed and conceptually overviewed in . This digital predistortion technique is suitable for wideband high crest factor applications (digital audio broadcasting, digital video broadcasting-terrestrial & wideband code division multiple access high power transmitters) and overcomes the technical deficiencies of the traditional direct learning method. Specifically, predistortion filter parameter estimation is modeled as a generic mathematical optimization problem instead of a linear regression problem. In addition, the optimization objective is derived in the frequency instead of the time domain. A hybridly pruned Volterra series with memory is used to implement the predistortion filter. Hybrid pruning leads to a small optimization vector space, whilst the predistortion filter memory makes the method well suited to wideband applications. Given that predistortion filter parameter estimation does not rely on known test signals being injected into the transmitter, the method is on-air adaptive. Implementation aspects of the technique not covered in , but requiring extended coverage in this paper, include selection of mathematical optimization algorithms, predistortion filter memory estimation, weighted adjacent channel power weighting function application, and on-air adaption performance. Results obtained from actual hardware are presented.

机译：本文提供了对自适应数字预失真技术的扩展分析，最初提出并在概念上概述了。这种数字预失真技术适用于宽带高波峰因数应用（数字音频广播，地面数字视频广播和宽带码分多址高功率发射机），并且克服了传统直接学习方法的技术缺陷。具体而言，将预失真滤波器参数估计建模为通用数学优化问题，而不是线性回归问题。此外，优化目标是在频率而非时域中得出的。带有内存的混合修剪Volterra系列用于实现预失真滤波器。混合修剪导致优化向量空间较小，而预失真滤波器存储器使该方法非常适合宽带应用。鉴于预失真滤波器参数估计不依赖于注入到发射机中的已知测试信号，该方法是空中自适应的。该技术的实现方面未在本文中涵盖，但需要扩展覆盖范围，包括数学优化算法的选择，预失真滤波器存储器估计，加权的相邻信道功率加权函数应用以及空中自适应性能。给出了从实际硬件获得的结果。

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《Broadcasting, IEEE Transactions on》 |2013年第1期|p.136-145|共10页
作者
Laki B. D.; Kikkert C. J.;
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James Cook University, Townsville, Australia;

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正文语种 eng
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Multiaccess communication; Nonlinear distortion; Optimization; Predistortion; Schedules; Transmitters; Wideband; Adjacent channel power; Volterra series; code division multiple access (CDMA); digital audio broadcasting (DAB); digital video broadcasting-terrestrial (DVB-T); linearization techniques; nonlinear distortion; optimization; orthogonal frequency-division multiplexing (OFDM); power amplifiers; predistortion; radio transmitters;

机译：多路访问通信;非线性失真;优化;预失真时间表;发射器;宽带;邻道功率;Volterra系列;码分多址（CDMA）;数字音频广播（DAB）;地面数字视频广播（DVB-T）;线性化技术;非线性失真优化;正交频分复用（OFDM）;功率放大器;预失真无线电发射机;

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专利

1. Adaptive Digital Predistortion for Wideband High Crest Factor Applications Based on the WACP Optimization Objective: A Conceptual Overview [J] . Laki B. D., Kikkert C. J. Broadcasting, IEEE Transactions on . 2012,第4期

机译：基于WACP优化目标的宽带高波峰因数应用的自适应数字预失真目标：概念概述
2. Synergetic Crest Factor Reduction and Baseband Digital Predistortion for Adaptive 3G Doherty Power Amplifier Linearizer Design [J] . Hammi O., Carichner S., Vassilakis B., IEEE Transactions on Microwave Theory and Techniques . 2008,第11期

机译：自适应波峰因数降低和自适应3G Doherty功率放大器线性化器设计的基带数字预失真
3. Adaptive Digital Predistortion Based on Hybrid Indirect Learning Structure with Variable Step-Size for Wideband HPA [J] . Wang Yong, Zhang Fei Wireless personal communications: An Internaional Journal . 2017,第2期

机译：基于混合间接学习结构的自适应数字预感，宽带HPA变量步长
4. Combining Crest Factor Reduction and digital predistortion with automatic determination of the necessary Crest Factor Reduction gain [C] . Mbaye Amadou, Baudoin Genevieve, Gouba Abel, European Microwave Conference . 2014

机译：结合波峰因数降低和数字预失真与自动确定必要的波峰因数降低增益
5. Digital predistortion linearization and crest factor reduction for wideband applications. [D] . Kim, Wan-Jong. 2006

机译：用于宽带应用的数字预失真线性化和波峰因数降低。
6. Digitally-Compensated Wideband 60 GHz Test-Bed for Power Amplifier Predistortion Experiments [O] . Martin Pospíšil, Roman Maršálek, Tomáš Götthans, 2021

机译：用于功率放大器预失真实验的数字补偿宽带60 GHz试验台
7. Digital predistortion linearization and crest factor reduction for wideband applications [O] . Kim Wan-Jong 2006

机译：针对宽带应用的数字预失真线性化和波峰因数降低

Adaptive Digital Predistortion for Wideband High Crest Factor Applications Based on the WACP Optimization Objective: An Extended Analysis

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