表征和检测帕金森病，数据驱动的方法

2020 International Conference on Smart Technologies in Computing, Electrical and Electronics (ICSTCEE) Pub Date : 2020-10-09 DOI:10.1109/ICSTCEE49637.2020.9276892

Ruben John Mampilli, Bharani Ujjaini Kempaiah, K. Goutham, B. Charan

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引用次数: 0

摘要

本研究旨在检查患有帕金森病的患者的诊断数据，以确定帕金森病存在的独特特征。该研究发现了许多新的相关性，比如男性帕金森患者比非帕金森患者更重，但在女性中没有发现这种趋势。该研究还验证了先前存在的理论，包括帕金森病导致大脑尾状核和壳核的形态改变。从帕金森氏症进展标志物倡议数据集获得的独立数据集在本研究中进行了探索。此外，通过结合可用数据和标准机器学习模型来创建数据集，以检测帕金森病的存在。决策树模型在由病史、社会经济背景和流动性数据组成的合并数据集上实现了96%的最高准确率。

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Characterization and detection of Parkinson’s Disease, A data driven approach

This study aims to examine diagnostic data of patients suffering from the Parkinson’s disease to identify characteristics that are distinctive in the presence of Parkinson’s. The study discovered numerous new correlations such as male Parkinson’s subjects being heavier than their non-Parkinson’s counterparts but indicated no such trend in females. The study also validated previously existing theories including the morphological alterations of the Caudate and Putamen nuclei in the brain as a result of Parkinson’s. Independent datasets obtained from the Parkinson’s Progression Markers Initiative dataset are explored in this study. Furthermore, datasets are created by combining the available data and standard machine learning models are employed to detect the presence of the Parkinson’s disease. A maximum accuracy of 96% was achieved by the Decision Tree model on a merged dataset consisting of medical history, socio-economic background and mobility data.

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2020 International Conference on Smart Technologies in Computing, Electrical and Electronics (ICSTCEE)

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