The Design of Stroke Rehabilitation Using Artificial Intelligence K.A.K.I (Kinesthetic Augmented Kinematic Inference)

IF 0.6 Q3 ENGINEERING, MULTIDISCIPLINARY
Yong Saan Cern, Yeoh Sheng Ze
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引用次数: 0

Abstract

Stroke is a major cause of disability worldwide that affects many people every year. Stroke rehabilitation is a process that helps stroke patients regain their lost function and improve their quality of life. However, the recovery process varies widely depending on the severity of stroke and other factors such as age, health and type of stroke. Many elderly patients face difficulties in attending rehabilitation centers due to various factors such as cost, distance and congestion. Therefore, this paper proposes methods to help stroke patients do rehabilitation exercises at home using the latest technology. Our project consists of interactive exercises that are customized to the skill level of the patients, hardware sensor inputs that can measure the strength of the hand movement of the patients, embedded processing board with camera that can detect and guide the movement of the patients and machine learning using convolutional neural network (CNN) that can analyze the movement data and provide feedback and motivation to the patients. The effectiveness of the proposed system is evaluated by the improvements in patients’ conditions through pre- and post-exercise tests. Overall, our kinesthetic augmented kinematic inferencing methods appear to be more effective than conventional methods for post-stroke rehabilitation. This project demonstrates a promising solution to enhance stroke rehabilitation, recovery and quality of life.
利用人工智能 K.A.K.I(运动学增强推理)设计脑卒中康复疗法
脑卒中是全球致残的主要原因,每年影响着许多人。脑卒中康复是一个帮助脑卒中患者恢复丧失的功能并提高生活质量的过程。然而,根据中风的严重程度以及年龄、健康状况和中风类型等其他因素的不同,康复过程也大相径庭。由于费用、距离和拥堵等各种因素,许多老年患者在去康复中心就诊时面临困难。因此,本文提出了利用最新技术帮助中风患者在家进行康复训练的方法。我们的项目包括根据患者技能水平定制的互动练习、可测量患者手部运动强度的硬件传感器输入、可检测和指导患者运动的带摄像头的嵌入式处理板,以及可分析运动数据并向患者提供反馈和激励的卷积神经网络(CNN)机器学习。通过运动前和运动后测试患者病情的改善情况来评估拟议系统的有效性。总体而言,我们的动觉增强运动推理方法似乎比传统的中风后康复方法更有效。该项目为提高中风康复、恢复和生活质量提供了一个前景广阔的解决方案。
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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来源期刊
Jurnal Kejuruteraan
Jurnal Kejuruteraan ENGINEERING, MULTIDISCIPLINARY-
自引率
16.70%
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0
审稿时长
24 weeks
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