Rantz Marilyn J, Banerjee Tanvi S, Cattoor Erin, Scott Susan D, Skubic Marjorie, Popescu Mihail
J Gerontol Nurs. 2014 Jan;40(1):13-7. doi: 10.3928/00989134-20131126-01. Epub 2013 Dec 4.
The purpose of this study was to test the implementation of a fall detection and "rewind" privacy-protecting technique using the Microsoft® Kinect™ to not only detect but prevent falls from occurring in hospitalized patients. Kinect sensors were placed in six hospital rooms in a step-down unit and data were continuously logged. Prior to implementation with patients, three researchers performed a total of 18 falls (walking and then falling down or falling from the bed) and 17 non-fall events (crouching down, stooping down to tie shoe laces, and lying on the floor). All falls and non-falls were correctly identified using automated algorithms to process Kinect sensor data. During the first 8 months of data collection, processing methods were perfected to manage data and provide a "rewind" method to view events that led to falls for post-fall quality improvement process analyses. Preliminary data from this feasibility study show that using the Microsoft Kinect sensors provides detection of falls, fall risks, and facilitates quality improvement after falls in real hospital environments unobtrusively, while taking into account patient privacy.
本研究的目的是测试一种使用微软®Kinect™的跌倒检测和“倒带”隐私保护技术的实施情况,该技术不仅能检测住院患者的跌倒,还能预防跌倒的发生。Kinect传感器被放置在一个逐步降级护理病房的六个病房中,并持续记录数据。在对患者实施该技术之前,三名研究人员共进行了18次跌倒(行走后摔倒或从床上跌落)和17次非跌倒事件(蹲下、弯腰系鞋带以及躺在地板上)。使用自动算法处理Kinect传感器数据,所有跌倒和非跌倒事件均被正确识别。在数据收集的前8个月,完善了处理方法以管理数据,并提供一种“倒带”方法来查看导致跌倒的事件,以便进行跌倒后质量改进过程分析。这项可行性研究的初步数据表明,在实际医院环境中,使用微软Kinect传感器能在不显眼的情况下检测跌倒、跌倒风险,并有助于跌倒后的质量改进,同时兼顾患者隐私。
