Automatic Assessment System Based on IMUs and Machine Learning for Predicting Berg Balance Scale

Bor Shing Lin, Zhao Zhang, Chih Wei Peng, Chi Chou Lin, Chueh Ho Lin*, Bor Shyh Lin

*此作品的通信作者

研究成果: Article同行評審

1 引文 斯高帕斯(Scopus)

摘要

The problem of decreased balance caused by injury, illness, or aging is becoming increasingly prevalent in society. The traditional functional balance assessment method is highly time-consuming and inefficient, as well as being susceptible to measurement errors caused by personal subjective factors. This study proposes a system that can rapidly, conveniently, and accurately predict a participant's Berg balance scale (BBS) score without professional supervision. The proposed system uses a wearable inertial sensing device combined with machine learning to predict the BBS score of a test participant. In the beginning, the participants were asked to wear inertial sensing devices on seven parts of the body and perform 17 test tasks. The wearable device locations and the test tasks were ranked by importance and further reduced wearable devices and the test tasks. Eventually, the participant is only required to wear an inertial sensing device on their left thigh and perform two simple test tasks, namely 'placing an alternate foot on a stool' and 'standing on one foot (right foot),' to obtain their BBS score. In this study, the proposed system has a high level of accuracy for predicting BBS scores. The experimental results indicate that the mean absolute error (MAE) of the proposed system was 1.274. Moreover, this study provided some important information as a reference for future research on functional balance, including feature sets selection, regression model selection, wearable device locations ranking, and test tasks ranking. The researchers can use that information to design their experiment.

原文English
頁(從 - 到)19919-19930
頁數12
期刊IEEE Sensors Journal
22
發行號20
DOIs
出版狀態Published - 15 10月 2022

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