基于bsn的生命体征监测系统新型微加工电极的表征与制备

D. G. Guo, F. Tay, Lin Xu, L. Yu, M. N. Nyan, F. W. Chong, K. L. Yap, B. Xu
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引用次数: 8

摘要

为bsn生命体征监测系统设计并制作了一种新型微机械电极。理论计算和ANSYS仿真均表明,所设计的微针在插入过程中不会出现屈曲问题。基于bsn的生命体征常规监测系统由无线遥控器、模拟放大电路板和动脉血氧饱和度(SpO2)探头组成,能够实时测量生理指标,对生活质量的干扰最小。本发明装置易磨损,使用方便。通过一个带ZigBee适配器的基座,PDA电话可以与mote进行通信,然后显示ECG/PPG波形以及心率、SpO2值、收缩压等重要生命体征指标。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Characterization and Fabrication of Novel Micromachined Electrode for BSN-Based Vital Signs Monitoring System
A novel micromachined electrode is designed and fabricated for a BSN-based vital signs monitoring system. Both theoretical calculation and ANSYS simulation show that buckling problem will not occur for the proposed microneedles during insertion process. The BSN-based vital signs routine monitoring system, which comprises of wireless mote, analog amplifier circuit board and SpO2 (Saturation of Arterial Oxygen) probe, is able to measure physiological signs in real time and with minimum disturbance on quality of life. The proposed device is easy to wear and convenient to use. Using a dock with ZigBee adapter, a PDA phone can communicate with the mote and then display the ECG/PPG waveforms as well as the important indices of vital signs, such as heart beat rate, SpO2 value and systolic blood pressure.
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