基于非制冷红外摄像机的多光谱热气体探测成像仪

3区 物理与天体物理 Q1 Materials Science
Fang-Xiao Cui, Yue Zhao, Anjing Wang, Feng-Xiang Ma, Jun Wu, Yang Li, Da-Cheng Li, Wang-Chao Dong
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引用次数: 0

摘要

气体远程检测有助于气体泄漏和有毒化学品的早期预警。光学气体成像(OGI)与一个非冷却红外相机在成本方面优于冷却探测器。目前主流的OGI技术在环境温度下检测气体和对多种气体进行分类的能力方面存在不足。为了解决这些问题,研制了一种多光谱非冷却成像仪,该成像仪由商用非冷却热像仪和宽带滤光片组成。为了解决滤波器的自辐射和不均匀问题,设计了一种校正方法,将环境温度黑体放在前面,从测量图像中减去黑体。基于波段截止,滤波器分为目标敏感滤波器和背景滤波器。根据宽频带滤光器透过率对多光谱进行模拟,可用于气体分类。六氟化硫(SF6)实验在室外距离10m处进行。训练支持向量机模型对气体释放进行实时分类。利用时间序列中数据立方的差异,改进了在冷天空背景下的检测。SF6室外实验得出了环境温度气体远程检测的初步有效结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Multi-Spectral Thermal Gas Detection Imager Using Uncooled Infrared Camera
Gas remote detection is useful for early warning of gas leakage and toxic chemicals. Optical gas imaging (OGI) built with an uncooled infrared camera is superior to cooled detectors in terms of cost. Current mainstream OGI technologies fall short in their detection of gases at ambient temperature and their ability to classify multiple gases. A multi-spectral uncooled imager is developed to try to solve these problems, which is constructed from a commercial uncooled thermal camera and wide band filters. To solve filter self-radiation and unevenness, a correction method is devised, with an ambient temperature blackbody placed in front and subtracted from the measured image. Based on waveband cutoffs, filters are classified into target-sensitive filters and background filters. Multi-spectra are simulated according to wide band filter transmittance, which can be used in gas classification. A sulfur hexafluoride (SF6) experiment is conducted outdoors at a distance of 10 m. An SVM model is trained to classify gas release in real time. Detection with a cold sky background is improved with the aid of data cube differences in a time sequence. The SF6 outdoor experiment concluded with preliminary effective results of ambient temperature gas remote detection.
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来源期刊
Progress in Optics
Progress in Optics 物理-光学
CiteScore
4.50
自引率
0.00%
发文量
8
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