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引用次数: 0
摘要
毫无疑问,机器学习(ML)近年来给许多应用带来了变革。分布在全球的大量异构数据被用来建立高效、稳健的预测模型。这导致了对分散式 ML 模式的需求。联邦学习(Federated Learning,FL)作为一种去中心化的 ML 范式已经出现,它能从多个私下训练的本地数据集创建全局模型。不过,FL 也面临一些挑战,例如使用中央服务器会导致单点故障和信任问题。为了解决这些难题,有人提出了基于区块链的联合学习(BFL)。然而,由于区块链系统的开放性,恶意客户可以获取关键信息,如参与客户的数量,并对 BFL 系统发起攻击。本文提出了一种针对 BFL 系统的实用模型中毒攻击。本文针对不同的攻击场景和设置进行了多次实验。评估和结果表明了模型中毒的功效和影响。
On the Analysis of Model Poisoning Attacks Against Blockchain-Based Federated Learning
Undoubtedly, Machine Learning (ML) has revolutionized many applications in recent years. A vast amount of heterogeneous data distributed globally is being used to build efficient and robust prediction models. This has led to the need for decentralized ML paradigms. Federated Learning (FL) has emerged as a decentralized ML paradigm that creates global models from multiple privately trained local datasets. Nevertheless, FL comes with some challenges, such as using a central server, leading to a single point of failure and trust issues. Blockchain-based Federated learning (BFL) has been proposed to resolve these challenges. However, due to the openness of the Blockchain system, malicious clients can access critical information, such as the number of participating clients, and launch attacks on the BFL system. This paper presents a practicable model poisoning attack on BFL systems. Several experiments are conducted with different attack scenarios and settings explored. The evaluations and results show the efficacy and impact of the model poisoning.
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