An Efficient Privacy-Preserving Secure Aggregation Scheme for Federated Learning with Input Verification and Dropout Resistance

计算机科学 同态加密 分布式计算 数据聚合器 方案(数学) 架空(工程) 信息隐私 加密 联合学习 计算机网络 秘密分享 弹性(材料科学) 稳健性(进化) 数据共享 单点故障 数据完整性 计算机安全 渲染(计算机图形) 密码学 代表 分布式学习 数据存取 计算复杂性理论 数据安全 正确性 安全通道 访问控制 数据建模 点对点 安全性分析 语义安全 遮罩(插图)
作者
Zijun Guo,Yuteng Sun,Xinyue Zhang,Lingling Wu
出处
期刊:ICST Transactions on Scalable Information Systems [European Alliance for Innovation]
卷期号:12 (8)
标识
DOI:10.4108/eetsis.11991
摘要

Federated learning, as a distributed machine learning paradigm, allows multiple participants to collaboratively train a shared model without sharing their local data. However, the increasing demand for privacy protection during data aggregation within distributed systems underscores the persistent challenge of ensuring both security and efficiency. Many existing Privacy-Preserving Machine Learning (PPML) schemes relying on homomorphic encryption introduce substantial computational overhead during aggregation, rendering them impractical for large-scale PPML applications involving resource-constrained participant devices. Moreover, device dropout events and data poisoning attacks perpetrated by malicious clients adversely affect the integrity of the aggregated results. To address these challenges, this paper proposes an efficient privacy-preserving secure aggregation scheme capable of tolerating participant dropout at arbitrary stages and securing data against both semi-honest and malicious participants. By integrating input verification protocols and applying gradient masking techniques, the scheme enhances its resilience against malicious attacks while ensuring user data privacy. Leveraging the additive homomorphic property of Shamir's secret sharing enables efficient global mask recovery, significantly optimizing the scheme's efficiency. Experimental results demonstrate that the proposed scheme significantly outperforms baseline methods in computational efficiency, communication overhead, and security robustness. By effectively balancing high privacy protection with practical feasibility, this scheme presents a promising solution for secure multi-party aggregation in large-scale distributed systems.
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