Automatic non-linear analysis of non-invasive writing signals, applied to essential tremor

Q1 Mathematics Journal of Applied Logic Pub Date : 2016-07-01 DOI:10.1016/j.jal.2015.02.003

K. Lopez-de-Ipiña , A. Bergareche , P. de la Riva , M. Faundez-Zanuy , P.M. Calvo , J. Roure , E. Sesa-Nogueras

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引用次数: 10

Abstract

Essential tremor (ET) in the western world is the most common movement disorder, and 50–70% of essential tremor cases are estimated to be genetic in origin [14]. This work on selection of nonlinear biomarkers derived from drawings and handwriting is part of a wider cross-study for the diagnosis of essential tremor led by Biodonostia Institute. These biomarkers include not only classic linear features, but also non-linear: fractal dimension and entropy. The presence of integrated features of other diseases such as stress is also analyzed. In future works, these new biomarkers will be integrated with the ones obtained in the wider study of Biodonostia. Note that the use of these methods provide undoubted benefits towards the development of more sustainable, low-cost, high-quality, and non-invasive technologies. These systems are easily adaptable to the user and environment, and can be very useful in real complex environments with regard to a social and economic point of view.

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自动非线性分析的非侵入性书写信号，适用于特发性震颤

特发性震颤(ET)在西方世界是最常见的运动障碍，估计50-70%的特发性震颤病例是遗传性的。这项从绘画和笔迹中选择非线性生物标志物的工作是由Biodonostia研究所领导的原发性震颤诊断的更广泛交叉研究的一部分。这些生物标志物不仅包括经典的线性特征，还包括非线性特征:分形维数和熵。还分析了应激等其他疾病的综合特征。在未来的工作中，这些新的生物标志物将与在生物牙槽菌更广泛的研究中获得的生物标志物相结合。值得注意的是，这些方法的使用无疑为更可持续、低成本、高质量和非侵入性技术的发展提供了好处。这些系统很容易适应用户和环境，并且从社会和经济的角度来看，在真实的复杂环境中非常有用。

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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