Frequency Detection Of Hand Tremors Using Customized Accelerometer

2021 IEEE National Biomedical Engineering Conference (NBEC) Pub Date : 2021-11-09 DOI:10.1109/nbec53282.2021.9618761

A. Al-Kazwini, Ahmad Halilah, Aeshah Hendi, Ibrahim Al-Saeed, Abdullah Al-Azamat, W. Al-Zyoud

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Abstract

Tremor can be defined as involuntary, rhythmic muscle contraction involving movements of one or more body parts, e.g. hands, arms, head, face, voice, trunk, and legs. This work aims to measure the frequency of hand tremors using a customized, reasonably accurate method to monitor the severity of tremors and reach a point where building hand tremors stabilizing system is possible to allow patients to overcome this problem. The data in this work was collected using an accelerometer attached to the patient’s index finger as it is involved in important daily life activities such as writing. The signal was obtained using a microcontroller and an Arduino Mega and has been processed using MATLAB software from Math Works, combined with an open-source Arduino Software, an Integrated Development Environment (IDE). The proposed method was applied to 30 patients with hand tremors from various diseases compared with a normal person as a source for a normal signal. The maximum frequency of hand tremors was around 7 Hz, which is in agreement with previous studies. We conclude that this technique can handle and measure very low tremor frequencies, which can be utilized in the future for building a tremor stabilizing device.

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基于定制加速度计的手部振动频率检测

震颤可以定义为不自主的、有节奏的肌肉收缩，包括一个或多个身体部位的运动，如手、手臂、头、脸、声音、躯干和腿。这项工作的目的是通过定制的、合理准确的方法来测量手部震颤的频率，以监测震颤的严重程度，并达到建立手部震颤稳定系统的目的，使患者能够克服这一问题。这项工作的数据是通过连接在患者食指上的加速度计收集的，因为它参与了重要的日常生活活动，如写作。该信号使用微控制器和Arduino Mega获得，并使用Math Works中的MATLAB软件，结合开源的Arduino软件，集成开发环境(IDE)进行处理。将该方法应用于30名不同疾病的手部震颤患者，并与正常人进行比较，作为正常信号的来源。手部震颤的最大频率约为7赫兹，这与之前的研究一致。我们的结论是，这种技术可以处理和测量非常低的震颤频率，这可以在未来用于建立震颤稳定装置。

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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2021 IEEE National Biomedical Engineering Conference (NBEC)

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