脑电代表性学习的差分私有多模态拉普拉斯Dropout （DP-MLD）

IF 6 1区计算机科学 Q1 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE

Neural Networks Pub Date : 2025-06-04 DOI:10.1016/j.neunet.2025.107657

Xiaowen Fu , Bingxin Wang , Xinzhou Guo , Guoqing Liu , Yang Xiang

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引用次数: 0

摘要

近年来，多模态脑电图（EEG）学习在疾病检测中显示出很大的前景。与此同时，由于法律和伦理方面的考虑，确保临床研究中的隐私变得越来越重要。差分隐私（DP）是一种被广泛采用的隐私保护方案，因为它具有清晰的解释和易于实现的特点。尽管在DP下提出了许多方法，但由于模型和信号数据的复杂性，对多模态脑电图数据的研究还不够广泛。在本文中，我们提出了一种新的差分私有多模态拉普拉斯Dropout （DP-MLD）方案用于多模态脑电学习。我们的方法提出了一种新的多模态代表性学习模型，通过语言模型将脑电数据作为文本处理，通过视觉转换器将其他模态数据作为图像处理，并结合精心设计的交叉注意机制来有效地提取和整合跨模态特征。为了实现DP，我们设计了一种新的自适应特征级拉普拉斯放弃方案，该方案在给定的隐私预算内动态优化随机性分配和性能。在一个开源的帕金森病（PD）步态冻结（FoG）多模态数据集上进行的实验中，我们提出的方法的分类准确率提高了大约4%，并且在DP下的多模态EEG学习中达到了最先进的性能。

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Differentially Private Multimodal Laplacian Dropout (DP-MLD) for EEG representative learning

Recently, multimodal electroencephalogram (EEG) learning has shown great promise in disease detection. At the same time, ensuring privacy in clinical studies has become increasingly crucial due to legal and ethical concerns. One widely adopted scheme for privacy protection is differential privacy (DP) because of its clear interpretation and ease of implementation. Although numerous methods have been proposed under DP, it has not been extensively studied for multimodal EEG data due to the complexities of models and signal data considered there. In this paper, we propose a novel Differentially Private Multimodal Laplacian Dropout (DP-MLD) scheme for multimodal EEG learning. Our approach proposes a novel multimodal representative learning model that processes EEG data by language models as text and other modal data by vision transformers as images, incorporating well-designed cross-attention mechanisms to effectively extract and integrate cross-modal features. To achieve DP, we design a novel adaptive feature-level Laplacian dropout scheme, where randomness allocation and performance are dynamically optimized within given privacy budgets. In the experiment on an open-source multimodal dataset of Freezing of Gait (FoG) in Parkinson’s Disease (PD), our proposed method demonstrates an approximate 4% improvement in classification accuracy, and achieves state-of-the-art performance in multimodal EEG learning under DP.

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来源期刊

Neural Networks 工程技术-计算机：人工智能

CiteScore

13.90

自引率

7.70%

发文量

425

审稿时长

67 days

期刊介绍： Neural Networks is a platform that aims to foster an international community of scholars and practitioners interested in neural networks, deep learning, and other approaches to artificial intelligence and machine learning. Our journal invites submissions covering various aspects of neural networks research, from computational neuroscience and cognitive modeling to mathematical analyses and engineering applications. By providing a forum for interdisciplinary discussions between biology and technology, we aim to encourage the development of biologically-inspired artificial intelligence.