Oxygen Saturation Monitor Model Design for Freediving Implementation

Reviews on Advanced Materials and Technologies Pub Date : 1900-01-01 DOI:10.17586/2687-0568-2023-5-1-33-38
K.R. Razzhivina, A. Kamarchuk, D. Shiryaev
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Abstract

This paper describes the operation model of reflectance oxygen saturation monitor for freediving implementation and its dependence on distance and interposing media between the monitor and human skin. The model includes two LEDs with peak radiation wavelengths 660 nm and 940 nm and two photodiodes with peak sensitivity at 940 nm, interposing medium layer with air, water or silica glass parameters and seven skin layers. The modeling is executed by Monte-Carlo method for the cases of air, glass and water as interposing medium and its various width in range from 2 mm to 8 mm which is chosen due to the planned case construction. The energy fluxes ratio dependence on distance between the photodiodes and skin is evaluated and analyzed.
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自由潜水实现氧饱和度监测仪模型设计
本文介绍了用于自由潜水的反射式血氧饱和度监测仪的工作模式,以及它与人体皮肤之间的距离和介质的依赖关系。该模型包括两个峰值辐射波长分别为660 nm和940 nm的led和两个峰值灵敏度为940 nm的光电二极管,中间插入空气、水或硅玻璃参数的介质层和7个蒙皮层。采用蒙特卡罗方法对空气、玻璃和水作为插入介质的情况进行建模,并根据规划的情况选择2 ~ 8 mm的不同宽度。评估和分析了能量通量比与光电二极管与皮肤之间距离的关系。
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Reviews on Advanced Materials and Technologies
Reviews on Advanced Materials and Technologies
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