Schmucker Michael, Igel Christoph, Kappler Robin, Haag Martin
Heilbronn University of Applied Sciences, GECKO Institute, Germany.
DFKI, Educational Technology Lab, Germany.
Stud Health Technol Inform. 2019 Jul 4;262:67-70. doi: 10.3233/SHTI190018.
Emergencies involving children are rare events. Due to the associated lack of routine and special features in pediatric resuscitation, it is prone to errors and the results are unsatisfactory. One way of tackling this problem is to use assistance services. However, due to the process, these services cannot be easily integrated. One possibility is the use of Head Mounted Displays. These are often controlled via voice commands. With medical terms, the voice control implemented as standard can quickly become unusable. A wearable app was therefore developed for this paper and evaluated according to ISO/IEC 30122-2:2017 to determine the extent to which the voice control of a state-of-the-art smartglass works in quiet and noisy conditions for use during a resuscitation. Since the commands were well understood and the app could be reliably controlled, the use of voice control in an assistance service is conceivable.
涉及儿童的紧急情况是罕见事件。由于儿科复苏缺乏相关常规操作和特殊特征,容易出现失误且结果不尽人意。解决这个问题的一种方法是使用辅助服务。然而,由于其流程,这些服务不易整合。一种可能性是使用头戴式显示器。这些通常通过语音指令控制。对于医学术语,标准实施的语音控制很快就会无法使用。因此,本文开发了一款可穿戴应用程序,并根据ISO/IEC 30122-2:2017进行评估,以确定最先进的智能眼镜的语音控制在安静和嘈杂条件下用于复苏时的工作程度。由于指令易于理解且应用程序可以可靠控制,因此可以设想在辅助服务中使用语音控制。
