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基于Monte-Carlo方法的耳垂动态光谱检测研究 被引量:1

Dynamic spectral measurement of earlap on Monte-Carlo method
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摘要 选择耳垂作为测量部位,建立了多层耳垂组织仿真模型,利用Monte-Carlo方法研究了不同光源特性(光束半径,入射能量大小及分布等)及模型参数下耳垂组织模型的光透射能量及分布规律,由透射光能量分布、光电二极管光敏面积和探测灵敏度推出特定测量信噪比要求的入射光能量。研究结果表明,耳垂组织的实际入射光能量能够满足动态光谱检测的要求,获得了更高的动态光谱测量精度,可满足动态光谱法的血液成分检测的要求。 With selecting earlap as the measuring spot, a multi-layer simulation model of the earlap is established. The transmittance of the earlap model and its distribution regularities under vary beam properties (beam radius, the input energy and its distribution) and model parameters are researched by Monte-Carlo method. Then from the light energy distribution, the detective area and the detective sensitivity of the detector, the input energy needed for certain signal-noise ratio is calculated. It has been proved by research results that the practicable input energy of the earlap can meet the requirement of the acquisition of the dynamic spectrum, higher measurement accuracy of the dynamic spec- trum also can meet the spectrum measurement accuracy in the noninvasive measurement of blood compositions.
作者 李刚 刘玉良 林凌 王焱
机构地区 天津大学精仪学院
出处 《光学精密工程》 EI CAS CSCD 北大核心 2006年第5期816-821,共6页 Optics and Precision Engineering
基金 国家自然科学基金资助项目(No.60174032)
关键词 动态光谱法 组织模型 耳垂 MONTE-CARLO法 dynamic spectroscopy tissue model earlap Monte-Carlo method
分类号 O433.4 [机械工程—光学工程]
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参考文献17

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光学精密工程
2006年 第5期

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