用于非接触式呼吸监测的光波传感的基本限制。

IF 2.9 2区 医学 Q2 BIOCHEMICAL RESEARCH METHODS
Biomedical optics express Pub Date : 2024-10-21 eCollection Date: 2024-11-01 DOI:10.1364/BOE.514776
Brenden Martin, Md Zobaer Islam, Carly Gotcher, Tyler Martinez, Sabit Ekin, John F O'Hara
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引用次数: 0

摘要

我们建造了一个实验台,以严格评估光波传感技术的基本极限--这是一种以前报道过的经济型非接触式生命体征监测方法。我们利用锁定放大技术改进了试验台,并证明光电探测器和普通的红外线 LED 阵列足以检测呼吸运动,并量化 2.5 米以外的呼吸频率。我们提出了一个新颖的散射模型,并由此推导出光波传感系统的性能极限,即受系统动态范围限制的理论范围分辨率。利用机器人呼吸模型,我们首次通过实验评估了测试平台系统的测距分辨率,并将其与理论预测值进行了比较。这项工作还介绍了一种生成随机呼吸模式的过程,可能会对呼吸模型的设计者有广泛的帮助。本文全面探讨了实际挑战和分析模型,是了解和设计光波传感系统的独特而全面的教程。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Fundamental limits of light-wave sensing for non-contact respiration monitoring.

An experimental testbed was constructed to rigorously assess the fundamental limits of light-wave sensing-an economic, non-contact vitals monitoring approach previously reported. We improve the testbed using lock-in amplification and demonstrate that a photodetector and a commonplace array of infrared LEDs are sufficient to detect respiratory motion and quantify respiration rate up to 2.5 meters away. We propose a novel scattering model, from which we derive the performance limits of the light-wave sensing system in terms of a theoretical range resolution limited by the dynamic range of the system. Using a robotic breathing phantom, we experimentally assess, for the first time, the range resolution of the testbed system and compare this to theoretical predictions. This work also introduces a process for generating stochastic respiration patterns, which may prove broadly useful to the designers of breathing phantoms. Holistically exploring practical challenges and analytical models, this paper serves as a unique and comprehensive tutorial for understanding and designing light-wave sensing systems.

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来源期刊
Biomedical optics express
Biomedical optics express BIOCHEMICAL RESEARCH METHODS-OPTICS
CiteScore
6.80
自引率
11.80%
发文量
633
审稿时长
1 months
期刊介绍: The journal''s scope encompasses fundamental research, technology development, biomedical studies and clinical applications. BOEx focuses on the leading edge topics in the field, including: Tissue optics and spectroscopy Novel microscopies Optical coherence tomography Diffuse and fluorescence tomography Photoacoustic and multimodal imaging Molecular imaging and therapies Nanophotonic biosensing Optical biophysics/photobiology Microfluidic optical devices Vision research.
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