FedRDF: A Robust and Dynamic Aggregation Function against Poisoning Attacks in Federated Learning

ArXiv Pub Date : 2024-02-15 DOI:10.48550/arXiv.2402.10082

Enrique Mármol Campos, Aurora González-Vidal, José Luis Hernández Ramos, A. Gómez-Skarmeta

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Abstract

Federated Learning (FL) represents a promising approach to typical privacy concerns associated with centralized Machine Learning (ML) deployments. Despite its well-known advantages, FL is vulnerable to security attacks such as Byzantine behaviors and poisoning attacks, which can significantly degrade model performance and hinder convergence. The effectiveness of existing approaches to mitigate complex attacks, such as median, trimmed mean, or Krum aggregation functions, has been only partially demonstrated in the case of specific attacks. Our study introduces a novel robust aggregation mechanism utilizing the Fourier Transform (FT), which is able to effectively handling sophisticated attacks without prior knowledge of the number of attackers. Employing this data technique, weights generated by FL clients are projected into the frequency domain to ascertain their density function, selecting the one exhibiting the highest frequency. Consequently, malicious clients' weights are excluded. Our proposed approach was tested against various model poisoning attacks, demonstrating superior performance over state-of-the-art aggregation methods.

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FedRDF：联盟学习中抵御中毒攻击的稳健动态聚合函数

联合学习（FL）是解决与集中式机器学习（ML）部署相关的典型隐私问题的一种有前途的方法。尽管联合学习具有众所周知的优势，但它很容易受到拜占庭行为和中毒攻击等安全攻击，这些攻击会显著降低模型性能并阻碍收敛。现有的缓解复杂攻击的方法，如中位数、修剪均值或克鲁姆聚合函数，仅在特定攻击情况下部分证明了其有效性。我们的研究引入了一种利用傅立叶变换（FT）的新型稳健聚合机制，它能够有效处理复杂的攻击，而无需事先了解攻击者的数量。利用这种数据技术，FL 客户端生成的权重被投射到频域中，以确定其密度函数，并选择频率最高的一个。因此，恶意客户端的权重被排除在外。我们提出的方法针对各种模型中毒攻击进行了测试，证明其性能优于最先进的聚合方法。

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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