A Novel Augmented Reality Mobile-Based Application for Biomechanical Measurement

SPG biomed Pub Date : 2022-05-28 DOI:10.3390/biomed2020021

Shahin Basiratzadeh, E. Lemaire, N. Baddour

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引用次数: 3

Abstract

Human posture and range of motion (ROM) measurements are important health indicators for identifying abnormalities from various disorders (e.g., scoliosis, musculoskeletal disorders, pain syndromes). A viable real-time mobile application for measuring body posture and ROM is currently lacking. To address this need, a novel Android smartphone augmented-reality-based application was developed and evaluated to enable real-time AprilTag2 marker measurement at the point of patient contact (Biomechanical Augmented Reality-Marker, BAR-M). Mobile app performance was evaluated on a body opponent bag (BOB) and 15 healthy participants by comparing smartphone app and Vicon motion analysis output (pelvis, shoulder, arm, torso angles). A Samsung Galaxy smartphone recorded live video, calculated AprilTag orientations and angle of “a line connecting the center of two tags”, and displayed outcomes in real time. For the BOB test, the absolute difference between Vicon and smartphone angles were 0.09° ± 0.05° for hip, 0.09° ± 0.06° for shoulder, and 0.69° for arm abduction. For the participant test, the absolute mean angle differences were 1.70° ± 0.23° for hip, 1.34° ± 0.27° for shoulder, and 11.18° ± 3.68° for arm abduction. Overall, the app obtained valid and reliable angle measurements for postural and ROM assessments using the smartphone’s front camera. Arm abduction results were affected by clothing movement that caused Vicon markers to move differently from AprilTag markers. Thus, with appropriate measurement methods, this real-time smartphone app is a viable tool to facilitate immediate clinical decision making based on human posture and ROM assessments.

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一种基于移动增强现实的生物力学测量新应用

人体姿势和活动范围(ROM)测量是识别各种疾病(如脊柱侧凸、肌肉骨骼疾病、疼痛综合征)异常的重要健康指标。目前还缺乏一种可行的实时移动应用程序来测量身体姿势和ROM。为了满足这一需求，开发并评估了一种新型的基于Android智能手机增强现实的应用程序，以实现在患者接触点实时测量AprilTag2标记(生物力学增强现实标记，BAR-M)。通过比较智能手机应用程序和Vicon运动分析输出(骨盆、肩部、手臂、躯干角度)，对身体对手包(BOB)和15名健康参与者的移动应用程序性能进行了评估。三星Galaxy智能手机在现场录制视频后，计算出“两个标签中心连接线”的方向和角度，并实时显示结果。在BOB测试中，Vicon和智能手机角度的绝对差值分别为:髋部0.09°±0.05°、肩部0.09°±0.06°、手臂外展0.69°。在参与者测试中，髋关节绝对平均角度差为1.70°±0.23°，肩部为1.34°±0.27°，手臂外展为11.18°±3.68°。总体而言，该应用程序通过智能手机的前置摄像头获得了有效可靠的角度测量数据，用于姿势和ROM评估。手臂外展结果受到衣服运动的影响，导致Vicon标记与AprilTag标记的移动不同。因此，通过适当的测量方法，这个实时智能手机应用程序是一个可行的工具，可以根据人体姿势和ROM评估来促进即时临床决策。

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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SPG biomed

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