Cellular Traffic Prediction via Byzantine-Robust Asynchronous Federated Learning

IF 6.7 2区计算机科学 Q1 ENGINEERING, MULTIDISCIPLINARY

IEEE Transactions on Network Science and Engineering Pub Date : 2025-02-27 DOI:10.1109/TNSE.2025.3545912

Hui Ma;Kai Yang;Yang Jiao

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引用次数: 0

Abstract

Network traffic prediction plays a crucial role in intelligent network operation. Traditional prediction methods often rely on centralized training, necessitating the transfer of vast amounts of traffic data to a central server. This approach can lead to latency and privacy concerns. To address these issues, federated learning integrated with differential privacy has emerged as a solution to improve data privacy and model robustness in distributed settings. Nonetheless, existing federated learning protocols are vulnerable to Byzantine attacks, which may significantly compromise model robustness. Developing a robust and privacy-preserving prediction model in the presence of Byzantine clients remains a significant challenge. To this end, we propose an asynchronous differential federated learning framework based on distributionally robust optimization. The proposed framework utilizes multiple clients to train the prediction model collaboratively with local differential privacy. In addition, regularization techniques have been employed to further improve the Byzantine robustness of the models. We have conducted extensive experiments on three real-world datasets, and the results elucidate that our proposed distributed algorithm can achieve superior performance over existing methods.

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基于拜占庭鲁棒异步联邦学习的蜂窝流量预测

网络流量预测在网络智能运行中起着至关重要的作用。传统的预测方法往往依赖于集中训练，需要将大量的流量数据传输到中央服务器。这种方法可能会导致延迟和隐私问题。为了解决这些问题，与差分隐私集成的联邦学习已经成为一种解决方案，可以改善分布式设置中的数据隐私和模型鲁棒性。尽管如此，现有的联邦学习协议很容易受到拜占庭攻击，这可能会严重损害模型的鲁棒性。在拜占庭客户端存在的情况下，开发一个健壮且保护隐私的预测模型仍然是一个重大挑战。为此，我们提出了一种基于分布式鲁棒优化的异步差分联邦学习框架。该框架利用多个客户端与局部差分隐私协同训练预测模型。此外，采用正则化技术进一步提高了模型的拜占庭鲁棒性。我们在三个真实数据集上进行了大量的实验，结果表明我们提出的分布式算法比现有方法具有更好的性能。

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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来源期刊

IEEE Transactions on Network Science and Engineering Engineering-Control and Systems Engineering

CiteScore

12.60

自引率

9.10%

发文量

393

期刊介绍： The proposed journal, called the IEEE Transactions on Network Science and Engineering (TNSE), is committed to timely publishing of peer-reviewed technical articles that deal with the theory and applications of network science and the interconnections among the elements in a system that form a network. In particular, the IEEE Transactions on Network Science and Engineering publishes articles on understanding, prediction, and control of structures and behaviors of networks at the fundamental level. The types of networks covered include physical or engineered networks, information networks, biological networks, semantic networks, economic networks, social networks, and ecological networks. Aimed at discovering common principles that govern network structures, network functionalities and behaviors of networks, the journal seeks articles on understanding, prediction, and control of structures and behaviors of networks. Another trans-disciplinary focus of the IEEE Transactions on Network Science and Engineering is the interactions between and co-evolution of different genres of networks.