Deep Reinforcement Learning for Energy Efficiency Maximization in SWIPT-Based Over-the-Air Federated Learning

IF 5.3 2区 计算机科学 Q1 TELECOMMUNICATIONS IEEE Transactions on Green Communications and Networking Pub Date : 2023-08-23 DOI:10.1109/TGCN.2023.3307428
Xinran Zhang;Hui Tian;Wanli Ni;Zhaohui Yang;Mengying Sun
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Abstract

Federated learning (FL) is a promising solution for preserving user privacy in Internet of Things (IoT) networks thanks to its distributed computing feature. Furthermore, over-the-air FL (AirFL) can leverage the superposition property of wireless channels to achieve fast model aggregation through concurrent analog transmissions. To make AirFL sustainable for energy-constrained IoT devices, we apply simultaneous wireless information and power transfer (SWIPT) at the base station to broadcast the global model and charge local devices during the model training process. To characterize the optimality gap between the aggregated FL model and the ideal FL model brought by signal misalignment, channel fading, and random noise in the model distribution and aggregation processes, we prove the convergence of SWIPT-based AirFL to show the precise impact of up- and down-link communications on the learning performance. We formulate a long-term energy efficiency (EE) maximization problem and propose a deep reinforcement learning algorithm with a collaborative double-agent approach to optimize resource allocation strategies while guaranteeing learning performance. Numerical results demonstrate that the proposed algorithm can achieve a maximum of 41% improvement in EE under various network settings compared with benchmark schemes, and the learning performance of SWIPT-based AirFL can be improved significantly by alleviating transmission errors.
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基于 SWIPT 的空中联合学习中实现能效最大化的深度强化学习
联邦学习(FL)具有分布式计算的特点,是在物联网(IoT)网络中保护用户隐私的一种有前途的解决方案。此外,空中联合学习(AirFL)可以利用无线信道的叠加特性,通过并发模拟传输实现快速模型聚合。为使 AirFL 可持续用于能源受限的物联网设备,我们在基站应用了同步无线信息和功率传输(SWIPT)技术,以广播全局模型,并在模型训练过程中为本地设备充电。为了表征聚合 FL 模型与理想 FL 模型之间的优化差距,我们证明了基于 SWIPT 的 AirFL 的收敛性,以显示上下行链路通信对学习性能的精确影响。我们提出了一个长期能效(EE)最大化问题,并提出了一种采用双代理协作方法的深度强化学习算法,以优化资源分配策略,同时保证学习性能。数值结果表明,与基准方案相比,在不同的网络设置下,所提出的算法最多可实现 41% 的能效改进,而且通过减少传输错误,基于 SWIPT 的 AirFL 的学习性能可得到显著提高。
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来源期刊
IEEE Transactions on Green Communications and Networking
IEEE Transactions on Green Communications and Networking Computer Science-Computer Networks and Communications
CiteScore
9.30
自引率
6.20%
发文量
181
期刊最新文献
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