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首页> 外文会议>2016 IEEE First Conference on Connected Health: Applications, Systems and Engineering Technologies >The Selection and Validation of Biosensors for Studying a Novel Healthcare Environment
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The Selection and Validation of Biosensors for Studying a Novel Healthcare Environment

机译:用于研究新型医疗环境的生物传感器的选择和验证

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Float tanks are returning as a form of treatment in a number of recreational and healthcare environments. This creates the need for biosensors capable of collecting empirical data during float sessions to identify and quantify the resulting health effects. This paper presents the selection and validation of off-the-shelf biosensors to aid researchers and float tank entrepreneurs investigate the effects of this novel healthcare environment. We developed modifications to the selected devices to ensure usability in the unique environment created by float tanks, and these modifications were tested to determine their effectiveness in protecting the devices and reducing excessive sensory input that would detract from the float experience. After a process of validation and verification, it was determined that the modified biosensors can successfully monitor movement, ECG, respiration, and blood pressure during float sessions. Our selected EEG device was unable to work in this environment. After testing and validation, we developed a method to ensure time synchronization between devices. The method was tested against a standardized physiological recording device, and the tests verified the accuracy of the biosensors' timestamps. Additional experiments between devices further validated the technique and illustrated how an event can be identified in multiple data streams. The proposed biosensors and methods can be used to accurately study changes in physiological variables during float sessions.
机译:在许多娱乐和保健环境中,浮罐正作为一种治疗形式返回。这就需要生物传感器能够在浮动会议期间收集经验数据,以识别和量化由此产生的健康影响。本文介绍了现成的生物传感器的选择和验证,以帮助研究人员和浮罐企业家研究这种新型医疗环境的影响。我们对选定的设备进行了修改,以确保在浮箱产生的独特环境中的可用性,并且对这些修改进行了测试,以确定它们在保护设备和减少过多的感官投入(会损害浮子体验)方面的有效性。经过验证和验证的过程后,确定改进的生物传感器可以成功地监测漂浮期间的运动,心电图,呼吸和血压。我们选择的EEG设备无法在这种环境下工作。经过测试和验证后,我们开发了一种方法来确保设备之间的时间同步。该方法针对标准化的生理记录设备进行了测试,并且测试验证了生物传感器时间戳的准确性。设备之间的其他实验进一步验证了该技术,并说明了如何在多个数据流中识别事件。所提出的生物传感器和方法可用于准确地研究浮游过程中生理变量的变化。

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