基于深度强化学习优化的边缘计算中基于区块链的多聚合器联邦学习架构

IF 4.5 2区计算机科学 Q1 COMPUTER SCIENCE, CYBERNETICS

IEEE Transactions on Computational Social Systems Pub Date : 2024-10-30 DOI:10.1109/TCSS.2024.3481882

Xiao Li;Weili Wu

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引用次数: 0

摘要

联邦学习（FL）正在成为一种备受追捧的分布式机器学习架构，它具有无需直接接触原始数据即可进行模型训练的优势。随着网络基础设施的进步，FL 已无缝集成到边缘计算中。然而，边缘设备上有限的资源给 FL 带来了安全漏洞。虽然区块链技术有望提高安全性，但在资源有限的边缘设备上进行实际部署仍是一项挑战。此外，边缘计算中多个聚合器的 FL 探索在文献中仍属首次。为了填补这些空白，我们引入了区块链赋能的异构多聚合器联合学习架构（BMA-FL）。我们设计了一种新颖的轻量级拜占庭共识机制，即 PBCM，以便在 BMA-FL 中实现安全、快速的模型聚合和同步。我们研究了 BMA-FL 中的异质性问题，即聚合器与不同数量的连接训练器相关联，这些训练器具有非 IID 数据分布和不同的训练速度。我们提出了一种多代理深度强化学习算法（MASB-DRL）来帮助聚合器决定最佳训练策略。在实词数据集上的实验表明，BMA-FL 比基线算法更快地实现了更好的模型，显示了 PBCM 和 MASB-DRL 的功效。

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A Blockchain-Empowered Multiaggregator Federated Learning Architecture in Edge Computing With Deep Reinforcement Learning Optimization

Federated learning (FL) is emerging as a sought-after distributed machine learning architecture, offering the advantage of model training without direct exposure to raw data. With advancements in network infrastructure, FL has been seamlessly integrated into edge computing. However, the limited resources on edge devices introduce security vulnerabilities to FL in the context. While blockchain technology promises to bolster security, practical deployment on resource-constrained edge devices remains a challenge. Moreover, the exploration of FL with multiple aggregators in edge computing is still new in the literature. Addressing these gaps, we introduce the blockchain-empowered heterogeneous multiaggregator federated learning architecture (BMA-FL). We design a novel lightweight Byzantine consensus mechanism, namely PBCM, to enable secure and fast model aggregation and synchronization in BMA-FL. We study the heterogeneity problem in BMA-FL that the aggregators are associated with varied number of connected trainers with non-IID data distributions and diverse training speed. We propose a multiagent deep reinforcement learning algorithm (MASB-DRL) to help aggregators decide the best training strategies. Experiments on real-word datasets demonstrate the efficiency of BMA-FL to achieve better models faster than baselines, showing the efficacy of PBCM and MASB-DRL.

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来源期刊

IEEE Transactions on Computational Social Systems Social Sciences-Social Sciences (miscellaneous)

CiteScore

10.00

自引率

20.00%

发文量

316

期刊介绍： IEEE Transactions on Computational Social Systems focuses on such topics as modeling, simulation, analysis and understanding of social systems from the quantitative and/or computational perspective. "Systems" include man-man, man-machine and machine-machine organizations and adversarial situations as well as social media structures and their dynamics. More specifically, the proposed transactions publishes articles on modeling the dynamics of social systems, methodologies for incorporating and representing socio-cultural and behavioral aspects in computational modeling, analysis of social system behavior and structure, and paradigms for social systems modeling and simulation. The journal also features articles on social network dynamics, social intelligence and cognition, social systems design and architectures, socio-cultural modeling and representation, and computational behavior modeling, and their applications.