A Novel Deep Federated Learning-Based Model to Enhance Privacy in Critical Infrastructure Systems

Akash Sharma, Sunil K. Singh, Anureet Chhabra, Sudhakar Kumar, Varsha Arya, M. Moslehpour
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Abstract

Deep learning (DL) can provide critical infrastructure operators with valuable insights and predictive capabilities to help them make more informed decisions, improving system's robustness. However, training DL models requires large amounts of data, which can be costly to store in a centralized manner. Storing large amounts of sensitive critical infrastructure data in the cloud can pose significant security risks. Federated learning (FL) allows several clients to share learning data and train ML models. Unlike centralized models, FL does not require the sharing of client data. A novel framework is presented to train a VGG16 based CNN global model without sharing the data and only updating the local models among clients using federated averaging. For experimentation, MNIST dataset is used. The framework achieves high accuracy and keep data private using FL in critical infrastructures. The benefits and challenges of FL along with security vulnerabilities and attacks have been discussed along with the defenses that can be used to mitigate these attacks.
基于深度联合学习的新型模型,用于增强关键基础设施系统的隐私性
深度学习(DL)可以为关键基础设施运营商提供有价值的见解和预测能力,帮助他们做出更明智的决策,提高系统的稳健性。然而,训练深度学习模型需要大量数据,而集中存储这些数据的成本很高。在云中存储大量敏感的关键基础设施数据可能会带来巨大的安全风险。联合学习(FL)允许多个客户端共享学习数据并训练 ML 模型。与集中式模型不同,FL 不需要共享客户端数据。本文提出了一个新颖的框架,利用联合平均法训练基于 VGG16 的 CNN 全局模型,无需共享数据,只需更新客户端之间的局部模型。实验使用了 MNIST 数据集。该框架实现了高精确度,并在关键基础设施中使用 FL 保持数据私密性。此外,还讨论了 FL 的优势和挑战、安全漏洞和攻击,以及可用于缓解这些攻击的防御措施。
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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