Department of Telecommunications, Faculty of Electrical Engineering and Computer Science, VSB-Technical University of Ostrava, 17 Listopadu 15, Ostrava 70833, Czech Republic.
Department of Cybernetics and Biomedical Engineering, Faculty of Electrical Engineering and Computer Science, VSB-Technical University of Ostrava, 17 Listopadu 15, Ostrava 70833, Czech Republic.
Sensors (Basel). 2017 Jan 8;17(1):111. doi: 10.3390/s17010111.
In this article, we briefly describe the design, construction, and functional verification of a hybrid multichannel fiber-optic sensor system for basic vital sign monitoring. This sensor uses a novel non-invasive measurement probe based on the fiber Bragg grating (FBG). The probe is composed of two FBGs encapsulated inside a polydimethylsiloxane polymer (PDMS). The PDMS is non-reactive to human skin and resistant to electromagnetic waves, UV absorption, and radiation. We emphasize the construction of the probe to be specifically used for basic vital sign monitoring such as body temperature, respiratory rate and heart rate. The proposed sensor system can continuously process incoming signals from up to 128 individuals. We first present the overall design of this novel multichannel sensor and then elaborate on how it has the potential to simplify vital sign monitoring and consequently improve the comfort level of patients in long-term health care facilities, hospitals and clinics. The reference ECG signal was acquired with the use of standard gel electrodes fixed to the monitored person's chest using a real-time monitoring system for ECG signals with virtual instrumentation. The outcomes of these experiments have unambiguously proved the functionality of the sensor system and will be used to inform our future research in this fast developing and emerging field.
本文简要描述了一种用于基本生命体征监测的混合多通道光纤传感器系统的设计、构建和功能验证。该传感器使用了一种基于光纤布拉格光栅(FBG)的新型无创测量探头。该探头由两个封装在聚二甲基硅氧烷聚合物(PDMS)内的 FBG 组成。PDMS 对人体皮肤无反应,并且能抵抗电磁波、紫外线吸收和辐射。我们强调该探头的构建专门用于基本生命体征监测,如体温、呼吸率和心率。所提出的传感器系统可以连续处理多达 128 个人的传入信号。我们首先介绍了这种新型多通道传感器的整体设计,然后详细阐述了它如何有可能简化生命体征监测,从而提高长期保健设施、医院和诊所中患者的舒适度。参考 ECG 信号是使用标准凝胶电极通过虚拟仪器的实时 ECG 信号监测系统获取的,该电极固定在被监测者的胸部上。这些实验的结果明确证明了传感器系统的功能,并将用于指导我们在这个快速发展和新兴领域的未来研究。
