基于小波变换的老年人从坐到站的动作检测及使用可穿戴吊坠设备评估跌倒风险

Wavelet-Based Sit-To-Stand Detection and Assessment of Fall Risk in Older People Using a Wearable Pendant Device.

作者信息

Ejupi Andreas, Brodie Matthew, Lord Stephen R, Annegarn Janneke, Redmond Stephen J, Delbaere Kim

机构信息

Group of Assistive Healthcare Information Technology, Austrian Institute of Technology, Vienna, Austria.

Neuroscience Research AustraliaUniversity of New South Wales.

出版信息

IEEE Trans Biomed Eng. 2017 Jul;64(7):1602-1607. doi: 10.1109/TBME.2016.2614230. Epub 2016 Oct 3.

DOI:10.1109/TBME.2016.2614230

PMID:28113226

Abstract

GOAL

Wearable devices provide new ways to identify people who are at risk of falls and track long-term changes of mobility in daily life of older people. The aim of this study was to develop a wavelet-based algorithm to detect and assess quality of sit-to-stand movements with a wearable pendant device.

METHODS

The algorithm used wavelet transformations of the accelerometer and barometric air pressure sensor data. Detection accuracy was tested in 25 older people performing 30 min of typical daily activities. The ability to differentiate between people who are at risk of falls from people who are not at risk was investigated by assessing group differences of sensor-based sit-to-stand measurements in 34 fallers and 60 nonfallers (based on 12-month fall history) performing sit-to-stand movements as part of a laboratory study.

RESULTS

Sit-to-stand movements were detected with 93.1% sensitivity and a false positive rate of 2.9% during activities of daily living. In the laboratory study, fallers had significantly lower maximum acceleration, velocity, and power during the sit-to-stand movement compared to nonfallers.

CONCLUSION

The new wavelet-based algorithm accurately detected sit-to-stand movements in older people and differed significantly between older fallers and nonfallers.

SIGNIFICANCE

Accurate detection and quantification of sit-to-stand movements may provide objective assessment and monitoring of fall risk during daily life in older people.

摘要

目标

可穿戴设备为识别有跌倒风险的人群以及追踪老年人日常生活中行动能力的长期变化提供了新方法。本研究的目的是开发一种基于小波的算法，用于通过可穿戴吊坠设备检测和评估坐立运动的质量。

方法

该算法使用加速度计和气压传感器数据的小波变换。在25名进行30分钟典型日常活动的老年人中测试了检测准确性。通过评估34名跌倒者和60名非跌倒者（基于12个月的跌倒史）在实验室研究中进行坐立运动时基于传感器的坐立测量的组间差异，研究了区分有跌倒风险者和无跌倒风险者的能力。

结果

在日常生活活动中，坐立运动的检测灵敏度为93.1%，假阳性率为2.9%。在实验室研究中，与非跌倒者相比，跌倒者在坐立运动期间的最大加速度、速度和功率显著更低。

结论

新的基于小波的算法能准确检测老年人的坐立运动，且在老年跌倒者和非跌倒者之间存在显著差异。

意义

准确检测和量化坐立运动可为老年人日常生活中的跌倒风险提供客观评估和监测。

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基于小波变换的老年人从坐到站的动作检测及使用可穿戴吊坠设备评估跌倒风险

Wavelet-Based Sit-To-Stand Detection and Assessment of Fall Risk in Older People Using a Wearable Pendant Device.

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