FlGan: GAN-based unbiased federated learning under non-IID settings

FlGan: GAN-based unbiased federated learning under non-IID settings

Federated Learning (FL) suffers from low convergence and significant accuracy loss due to local biases caused by non-Independent and Identically Distributed (non-IID) data. To enhance the non-IID FL performance, a straightforward idea is to leverage the Generative Adversarial Network (GAN) to mitiga...

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Bibliographic Details
Main Authors: MA, Zhuoran, LIU, Yang, MIAO, Yinbin, XU, Guowen, LIU, Ximeng, MA, Jianfeng, DENG, Robert H.
Format: text
Language:English
Published: Institutional Knowledge at Singapore Management University 2024
Subjects:
Federated learning
fully homomorphic encryption
GAN
non-IID
user-level privacy
Databases and Information Systems
Information Security
Online Access:https://ink.library.smu.edu.sg/sis_research/9639
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Institution: Singapore Management University
Language: English
Description
Summary:Federated Learning (FL) suffers from low convergence and significant accuracy loss due to local biases caused by non-Independent and Identically Distributed (non-IID) data. To enhance the non-IID FL performance, a straightforward idea is to leverage the Generative Adversarial Network (GAN) to mitigate local biases using synthesized samples. Unfortunately, existing GAN-based solutions have inherent limitations, which do not support non-IID data and even compromise user privacy. To tackle the above issues, we propose a GAN-based unbiased FL scheme, called FlGan , to mitigate local biases using synthesized samples generated by GAN while preserving user-level privacy in the FL setting. Specifically, FlGan first presents a federated GAN algorithm using the divide-and-conquer strategy that eliminates the problem of model collapse in non-IID settings. To guarantee user-level privacy, FlGan then exploits Fully Homomorphic Encryption (FHE) to design the privacy-preserving GAN augmentation method for the unbiased FL. Extensive experiments show that FlGan achieves unbiased FL with 10%−60% accuracy improvement compared with two state-of-the-art FL baselines (i.e., FedAvg and FedSGD) trained under different non-IID settings. The FHE-based privacy guarantees only cost about 0.53% of the total overhead in FlGan.

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