| 使用多智能体反馈神经网络实现的数字预失真器 |
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| 引用本文: | 杨旸,刘畅,李凯,李阳,孙芳蕾,张国威.使用多智能体反馈神经网络实现的数字预失真器[J].信号处理,2023,39(3):450-458. |
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| 作者姓名: | 杨旸 刘畅 李凯 李阳 孙芳蕾 张国威 |
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| 作者单位: | 1.上海科技大学信息科学与技术学院, 上海 201210 |
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| 基金项目: | 山东省自然科学基金青年项目ZR2021QF090 |
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| 摘 要: | 近年来,深度学习(Deep Learning,DL)在通信场景中的应用逐渐兴起,其中就包括射频发射机的数字预失真(Digital Predistortion,DPD)处理。然而,由于射频功率放大器(Power Amplifier,PA)固有的非线性失真和记忆效应特点,如果直接应用传统DL算法去实现DPD会出现拟合效果不佳、自适应性差等现象。针对这个问题,本文提出了一种由多智能体反馈神经网络实现的数字预失真器(Multi-Agent Feedback Enabled Neural Network for Digital Predistortion,MAFENN-DPD),该网络引入了具有高纠错能力的反馈智能体结构,其主要特点是基于Stackelberg博弈理论去加速网络训练和收敛,同时我们还应用信息瓶颈理论指导网络超参数设计以增强MAFENN-DPD对PA记忆效应变化的动态适应能力。我们进行了一系列的实验来验证MAFENN-DPD的有效性。与使用典型前馈网络实现的DPD方案相比,基于MAFENN-DPD的方案在相邻信道功率比(Adjacent Channel Power Ratio,ACPR)指标上提高了约5 dB。同时,在没有通信过程中的大量先验知识的情况下,MAFENN-DPD实现了与使用记忆多项式方法建模的DPD方案十分接近的ACPR性能。仿真结果说明MAFENN-DPD相比传统神经网络可进一步提升ACPR性能,同时相比记忆多项式方法具有更好的自适应建模能力和通用性,并且具有多智能体反馈结构特征的神经网络未来在其他的通信场景中也具有应用推广的潜力。
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| 关 键 词: | ??多智能体系统 反馈神经网络 数字预失真 功率放大器 信息瓶颈理论 |
| 收稿时间: | 2022-10-24 |
Multi-Agent Feedback Enabled Neural Network for Digital Predistortion |
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| Affiliation: | 1.School of Information Science and Technology, ShanghaiTech University, Shanghai 201210, China2.Terminus Group, Beijing 100027, China3.The University of Manchester, Manchester M13 9PL, U.K.4.Qufu Normal University, Qufu, Shandong 273165, China |
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| Abstract: | ? ?In recent years, deep learning (DL) has been increasingly used in communication scenarios, such as for digital predistortion (DPD) of radio frequency (RF) transmitters. However, the nonlinear distortion and memory effects of power amplifiers (PAs) are non-negligible obstacles for traditional DL algorithms. Therefore, in this paper, we proposed a Multi-Agent Feedback Enabled Neural Network for Digital Predistortion (MAFENN-DPD), which employed a feedback agent with high error correction capability. In addition, we employed information bottleneck theory to guide the network hyperparameter design and facilitated network training acceleration via Stackelberg game theory. We performed a series of experiments to validate our proposed MAFENN-DPD. The adjacent channel power ratio (ACPR) was improved by about 5 dB compared to the DPD implemented using a typical feedforward network. At the same time, without extensive prior knowledge of the communication process, the MAFENN-DPD achieved a nearly equivalent ACPR performance to the DPD modeled by memory polynomials. Therefore, we can assume that MAFENN, a novel network structure, has the ability to solve the nonlinearity problem and memory effects of PA and has the potential to be applied in other communication scenarios. |
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