病理性震颤的数据驱动建模

Volume 2: 16th International Conference on Multibody Systems, Nonlinear Dynamics, and Control (MSNDC) Pub Date : 2020-08-17 DOI:10.1115/detc2020-22147

Jiamin Wang, S. K. Gupta, O. Barry

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引用次数: 2

摘要

了解病理性震颤(如帕金森氏病、特发性震颤)的动力学对开发这些神经系统疾病的有效治疗方法至关重要。本文研究了周期和准周期地震的数据驱动建模。提出了一个通用的神经肌肉骨骼模型作为本研究的理论基础。首次观测到帕金森震颤数据的周期性、频率组成和混沌特征，证实了震颤是一个非线性动力学问题。然后提出了两种数据驱动模型来预测震颤的非线性动力学:(1)基于长短期记忆递归神经网络的无模型方法;(2)基于扩展动态模态分解的基于模型的方法。将这些模型与现有模型进行了比较，结果表明，所提出的模型在长期预测震颤方面优于现有模型。

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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Towards Data-Driven Modeling of Pathological Tremors

Understanding the dynamics of pathological tremors (e.g., Parkinson’s Disease, Essential Tremor) is crucial to developing effective treatments for these neurological disorders. This paper studies the data-driven modeling of periodic and quasiperiodic tremors. A general neuromusculoskeletal model is proposed to serve as the theoretical basis of this study. The Parkinsonian tremor data is first observed in terms of periodicity, frequency composition, and chaotic characteristics, which confirm tremor is a nonlinear dynamics problem. Two data-driven models are then proposed to predict the nonlinear dynamics of tremor: (1) a model-free approach via long short-term memory recurrent neural network, and (2) a model-based approach via extended dynamical mode decomposition. These models are compared to existing models and the results show that the proposed models outperform existing models for long term prediction of tremor.

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Volume 2: 16th International Conference on Multibody Systems, Nonlinear Dynamics, and Control (MSNDC)

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