Graph Neural Networks for Parkinsons Disease Detection

Shakeel A. Sheikh, Yacouba Kaloga, Ina Kodrasi
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Abstract

Despite the promising performance of state of the art approaches for Parkinsons Disease (PD) detection, these approaches often analyze individual speech segments in isolation, which can lead to suboptimal results. Dysarthric cues that characterize speech impairments from PD patients are expected to be related across segments from different speakers. Isolated segment analysis fails to exploit these inter segment relationships. Additionally, not all speech segments from PD patients exhibit clear dysarthric symptoms, introducing label noise that can negatively affect the performance and generalizability of current approaches. To address these challenges, we propose a novel PD detection framework utilizing Graph Convolutional Networks (GCNs). By representing speech segments as nodes and capturing the similarity between segments through edges, our GCN model facilitates the aggregation of dysarthric cues across the graph, effectively exploiting segment relationships and mitigating the impact of label noise. Experimental results demonstrate theadvantages of the proposed GCN model for PD detection and provide insights into its underlying mechanisms
用于帕金森病检测的图神经网络
尽管最先进的帕金森病(PD)检测方法性能良好,但这些方法往往孤立地分析单个语音片段,可能导致不理想的结果。帕金森氏症患者言语障碍的特征是,不同说话者的语音片段之间存在关联。孤立的片段分析无法利用这些片段间的关系。此外,并非所有帕金森氏症患者的语音片段都表现出明显的发音障碍症状,这就带来了标签噪声,可能会对当前方法的性能和普适性产生负面影响。为了应对这些挑战,我们提出了一种利用图卷积网络(GCN)的新型帕金森病检测框架。通过将语音片段表示为节点,并通过边缘捕捉片段之间的相似性,我们的 GCN 模型有助于在整个图中聚合失真,从而有效利用片段关系并减轻标签噪声的影响。实验结果表明了所提出的 GCN 模型在发音障碍检测方面的优势,并提供了对其潜在机制的见解
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