生物医学气体传感的光声光谱:自适应滤波校准

A. Lay-Ekuakille, G. Vendramin, A. Trotta
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引用次数: 0

摘要

新的严格要求麻醉气体成分的测量必须准确评估浓度在医院设施,特别是在外科亭子。在卫生部门,无论是在手术室、恢复室还是在门诊,接触麻醉气体都可能给接触人员带来健康风险。虽然卫生保健工作者接触的麻醉浓度比病人低得多,但这种接触往往持续多年。人员经常表示疲劳和头痛,特别是在职业卫生条件不充分的情况下。暴露于麻醉气体对健康的不利影响这一决定性因素主要是所使用气体的类型、暴露时间的长短和气体浓度。本文旨在描述一种通过从声传感器(即麦克风)中提取信号来校准光声仪器的替代程序。替代方法是基于弗罗斯特波束形成算法,然后采用Savitsky-Golay方法进行平滑处理。用同样的替代方法进行了比较,但用陷波滤波器代替了弗罗斯特波束形成器。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Photoacoustic spectroscopy of biomedical gas sensing: Adaptive filtering as calibration
New severe requirements of measurements of anaesthetic gaseous components oblige to be accurate in evaluating concentrations in hospital facilities, especially in surgical pavilions. Exposure to anaesthetic gases in the health sector, whether in the operating room, recovery room, or in the context of outpatient clinics, may entail a health risk for the personnel exposed. Although health care workers are exposed to much lower anaesthetic concentrations than the patients, this exposure often extends over many years. Personnel often indicates fatigue and headaches, especially when occupational hygiene conditions are inadequate. The decisive factors as concerns, the adverse health effects of exposure to anaesthetic gases, are mainly the type of gases used, the length of exposure, and the gas concentrations. This paper aims to describe an alternative procedure of calibrating a photoacoustic instrumentation by extracting signal from acoustic sensors, that are microphones. The alternative procedure is based upon Frost beamformer algorithm preceded by a smoothing thanks to Savitsky-Golay method. A comparison has been performed using the same alternative procedure but by substituting Frost beamformer with a notch filter.
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