Smartphone-Based Wearable Gait Monitoring System Using Wireless Inertial Sensors

IF 1.7 Q3 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS
Alejandro Astudillo, Edna Avella-Rodríguez, Gloria Arango-Hoyos, J. Ramirez-Scarpetta, Esteban Rosero
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引用次数: 0

Abstract

This paper presents a wearable virtual reality system with a wireless network of inertial sensors for lower limb monitoring. The system comprises seven sensor nodes sending data wirelessly to a master node. The information is then collected, organized, and sent to a screening device via a serial interface. An application executed either on a smartphone or a personal computer features an avatar which represents the received data and mimics the sensed movements of the patient, providing online feedback during and after the execution of a therapy. The data resulting from the therapy execution can be uploaded to a web server to facilitate the assessment and decision-making by health professionals. A pendulum featuring a rotary optical encoder is used for sensor functional behavior validation.  In addition, the orientation angles measured by the proposed system are compared with respect to measurements from the motion analysis software Kinovea. The delay between the patient's body movement and the avatar is 33 ms, which is acceptable for visual feedback. This system is portable, inexpensive and enables a patient to complete physical therapy sessions at home or anywhere, with the advantage of enabling visual feedback through an avatar during rehabilitation therapy and allowing the reproduction of a therapy session for further analysis.
基于智能手机的可穿戴式无线惯性传感器步态监测系统
提出了一种基于惯性传感器无线网络的可穿戴式虚拟现实下肢监测系统。该系统包括七个传感器节点,将数据无线发送到主节点。然后收集、整理信息,并通过串行接口发送到筛选设备。在智能手机或个人电脑上执行的应用程序具有代表接收到的数据并模仿患者感知到的动作的化身,在治疗执行期间和之后提供在线反馈。治疗执行的数据可以上传到网络服务器,以方便卫生专业人员进行评估和决策。一个摆具有旋转光学编码器用于传感器的功能行为验证。此外,所提出的系统测量的取向角与运动分析软件Kinovea的测量结果进行了比较。患者身体运动和虚拟形象之间的延迟为33毫秒,这对于视觉反馈来说是可以接受的。该系统便携,价格低廉,使患者能够在家中或任何地方完成物理治疗,其优点是在康复治疗期间可以通过化身进行视觉反馈,并允许复制治疗过程以进行进一步分析。
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
CiteScore
4.00
自引率
46.20%
发文量
143
审稿时长
12 weeks
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