Federated Motor Imagery Classification for Privacy-Preserving Brain-Computer Interfaces

IF 4.8 2区 医学 Q2 ENGINEERING, BIOMEDICAL
Tianwang Jia;Lubin Meng;Siyang Li;Jiajing Liu;Dongrui Wu
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引用次数: 0

Abstract

Training an accurate classifier for EEG-based brain-computer interface (BCI) requires EEG data from a large number of users, whereas protecting their data privacy is a critical consideration. Federated learning (FL) is a promising solution to this challenge. This paper proposes Federated classification with local Batch-specific batch normalization and Sharpness-aware minimization (FedBS) for privacy protection in EEG-based motor imagery (MI) classification. FedBS utilizes local batch-specific batch normalization to reduce data discrepancies among different clients, and sharpness-aware minimization optimizer in local training to improve model generalization. Experiments on three public MI datasets using three popular deep learning models demonstrated that FedBS outperformed six state-of-the-art FL approaches. Remarkably, it also outperformed centralized training, which does not consider privacy protection at all. In summary, FedBS protects user EEG data privacy, enabling multiple BCI users to participate in large-scale machine learning model training, which in turn improves the BCI decoding accuracy.
用于保护隐私的脑机接口的联合运动图像分类
为基于脑电图的脑机接口(BCI)训练一个准确的分类器需要大量用户的脑电图数据,而保护用户数据隐私是一个重要的考虑因素。联邦学习(FL)是应对这一挑战的一个有前途的解决方案。本文提出了在基于脑电图的运动图像(MI)分类中保护隐私的联邦分类法(Federated classification with local Batch-specific batch normalization and Sharpness-aware minimization,FedBS)。FedBS 利用本地特定批次归一化来减少不同客户端之间的数据差异,并在本地训练中使用锐度感知最小化优化器来提高模型泛化能力。使用三种流行的深度学习模型在三个公共 MI 数据集上进行的实验表明,FedBS 的性能优于六种最先进的 FL 方法。值得注意的是,它的表现也优于完全不考虑隐私保护的集中式训练。总之,FedBS 保护了用户脑电图数据的隐私,使多个 BCI 用户能够参与大规模机器学习模型的训练,从而提高了 BCI 解码的准确性。
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
CiteScore
8.60
自引率
8.20%
发文量
479
审稿时长
6-12 weeks
期刊介绍: Rehabilitative and neural aspects of biomedical engineering, including functional electrical stimulation, acoustic dynamics, human performance measurement and analysis, nerve stimulation, electromyography, motor control and stimulation; and hardware and software applications for rehabilitation engineering and assistive devices.
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