基于U形边框黑体光阑的红外成像动态辐射定标与校正技术

动态红外成像系统MRTD的测试与分析王晶;纪明;敬鸣;黄维东;潘文卿【摘要】提出一种在正弦运动状态下测试红外热像仪最小可分辨温差(MRTD)的方法,建立了正弦运动状态下测试靶标灰度对比度变化的数学模型,采用MATLAB软件模拟得到该数学模型曲线,从理论上直观地阐述了在正弦运动下,目标四杆靶灰度对比度的变化趋势,为MRTD的动态测试提供了坚实的理论基础.论文设计并研制了实验平台,采用统计学方法对实验数据进行分析,得到扰动情况下红外热像仪的MRTD值.实验结果表明,提出的方法和实验装置能准确地完成动态MRTD的测试.【期刊名称】《激光与红外》【年(卷),期】2013(043)005【总页数】6页(P526-531)【关键词】正弦运动;动态MRTD;扰动;统计方法【作者】王晶;纪明;敬鸣;黄维东;潘文卿【作者单位】西安应用光学研究所,陕西西安710065;西安应用光学研究所,陕西西安710065;西安应用光学研究所,陕西西安710065;西安应用光学研究所,陕西西安710065;西安应用光学研究所,陕西西安710065【正文语种】中文【中图分类】TN2191 引言在热成像系统中，MRTD是综合评价系统温度分辨力和空间分辨力的重要参数，它不仅包括系统特性，也包括观察者的主观因素。

因此，MRTD的测量成为至关重要的任务。

现阶段，MRTD的测试都是在实验室环境下进行的静态测试。

而运动中精确打击目标是对战术武器的基本要求，因此，载体的运动对光电成像系统性能影响成为急需解决的问题，本文主要研究运动状态下红外热像仪最小可分辨温差(MRTD)测试，详细阐述了测试原理、方法和过程，并给出一定的实验结果，为更全面完整地研究运动状态下光电成像系统的性能打下了基础［1］。

2 测试原理及数学模型理论上红外热像仪MRTD由下式所示［2］:式中，SNRDT为观察者能分辨线条的阈值视觉信噪比;f为目标空间频率;NETD为待测热像系统噪声等效温差为人眼滤波函数;α，β分别为瞬时视场;te为人眼的积分时间;Δfn为噪声等效带宽;τd为驻留时间;fp为帧频。

红外成像辐射计的高温辐射定标方法研究的开题报告一、选题背景红外成像辐射计是一种用于测量高温物体辐射能的仪器，广泛应用于工业生产中，如钢铁、冶金、玻璃、陶瓷等领域的高温过程控制和研究。

为了保证仪器的精度和可靠性，需要对其进行辐射定标。

目前，红外成像辐射计的高温辐射定标方法主要有黑体辐射校准和白体辐射校准两种方法。

黑体辐射校准是将仪器与黑体热源接触，并通过测量黑体的辐射得出仪器的灵敏度和响应时间等参数；白体辐射校准是利用已知温度的白体来进行校准。

然而，这些方法存在一些问题，如黑体辐射校准需要使用高温黑体，并且容易受环境因素的影响，白体辐射校准则需要使用精密的白体，并且对环境温度和湿度的要求很高。

因此，为了解决以上问题，本研究拟提出一种基于红外电视技术的高温辐射定标方法，旨在提高红外成像辐射计的精度和可靠性，为工业生产提供更准确的测量数据。

二、研究内容和方法本研究拟采用基于红外电视技术的高温辐射定标方法。

具体内容包括以下几个方面：1.研究红外电视技术在高温环境下的应用，探究其在高温环境下的分辨率、响应时间等参数的变化规律。

2.设计制备一种高温辐射标准体，建立一个高温辐射模型，模拟真实的高温辐射场景，在不同的温度下进行辐射标定，并对标准体的辐射进行测量和分析。

3.通过对红外成像辐射计和高温辐射标准体的测量和分析，建立辐射定标模型，并对红外成像辐射计进行修正和校准。

4.通过实验验证，验证所提出的高温辐射定标方法的可行性和准确性。

本研究将采用实验室实验和数值模拟相结合的方法，通过对实验数据的分析和处理，建立高温辐射定标模型，通过对模型的修正和校准，提高红外成像辐射计的精度和可靠性。

三、研究意义本研究所提出的基于红外电视技术的高温辐射定标方法具有以下几方面的意义：1.提高红外成像辐射计的精度和可靠性，为工业生产提供更准确的测量数据。

2.解决传统辐射定标方法的一些问题，如黑体辐射校准需要使用高温黑体，白体辐射校准则需要使用精密的白体等。

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一种基于轮廓多边形逼近的可见光与红外图像配准方法吴东东;周东翔;关涛;宋保泉【摘要】针对遥感可见光与红外图像配准的问题，提出采用对轮廓进行多边形逼近的配准方法。

由于可见光与红外遥感图像中噪声多、灰度复杂等特点，使得很多配准方法失效。

在提取目标轮廓后对轮廓多边形逼近，然后利用Freemen链码作对多边形的特征进行分析，根据仿射变换中直线不变原理，得到多边形的边和顶点之间的关系，利用控制点对进行配准。

实验证明该方法取得了较好的效果。

%10.3969/j.issn.1000-386x.2012.10.009【期刊名称】《计算机应用与软件》【年(卷),期】2012(000)010【总页数】4页(P28-30,122)【关键词】图像配准;红外图像;可见光图像;多边形逼近;Freeman链码【作者】吴东东;周东翔;关涛;宋保泉【作者单位】国防科学技术大学电子科技与工程学院湖南长沙410073;国防科学技术大学电子科技与工程学院湖南长沙410073;国防科学技术大学电子科技与工程学院湖南长沙410073;国防科学技术大学电子科技与工程学院湖南长沙410073【正文语种】中文【中图分类】TP3010 引言图像配准是将两幅不同源相机、不同视角、不同时间获得的图像，根据相似部分变换到同一坐标下的过程。

图像配准在图像处理中应用非常多，配准处理是很多图像处理的基础，图像拼接、图像融合，都必须先配准。

基于可见光与红外图像的特点文献［1］首先提出基于轮廓的配准方法。

国内也有许多开始研究基于轮廓的配准方法。

文献［2］提出利用轮廓的方向性和一些不变特性进行配准，但是他们的配准图像的轮廓必须非常清晰，两幅图形中必须有可以提取的相似特征。

文献［3］中提出的基于控制点图像配准方法，首先采用插值优化，再直接选取控制点进行配准。

但是如果在图像较复杂的情况下，不易找到有效的控制点。

文献［4］在一种基于角点特征的图像自动配准方法中提到利用Harris算子找到角点再筛选出控制点，对特定的图像都可以实现配准。

3～5μm红外焦平面阵列的辐射定标李宁;杨词银;曹立华;郭立红【摘要】To get infrared radiance characteristics of a target while it was tracked, a radiance calibration system for infrared focal plane arrays (IFPA) was design. By taking a high-accuracy plane black-body as a standard source, a mid-wave camera whose spectral response range is 3 μm to 5 μm was calibrated. Firstly, the calibration methodology was established and calibration procedures were decided. Then, the linear regression model was used to fit and evaluate the goodness of response and a eliminating the outlier method was taken to improve the fitting curve of the response. Finally, the target of known temperature and characteristics on the spot was measured in a field, and the actual observed value of infrared radiance characterization was obtained by fitting response curve and atmosphere transmittance. Calculation indicates that relative errors of the actual observed value to the theoretical value are less than 3%. The result confirms that proposed method can improve the uncertainty causedby the nonlinear of IFPA response.%设计了一套红外焦平面阵列探测器的实验室辐射定标系统,以实现在对目标进行跟踪观测的同时得到目标的红外辐射特性.以高精度的面源黑体为标准辐射源,对在3～5 μm成像的中波红外相机进行了响应度标定.首先,建立定标数学模型,确定定标流程；然后,使用线性回归统计模型对响应度进行拟合和评估,并提出剔除局外点方法对拟合曲线进行优化；最后,在外场对温度和特性已知的目标进行测量.通过对实验室得到的响应度曲线和大气透过率参数进行红外辐射特性数据的反演,得到实际测量值,其与理论值的相对误差小于3％.结果表明,该优化方法能有效改善红外焦平面阵列响应度非线性引起的反演不确定度.【期刊名称】《光学精密工程》【年(卷),期】2011(019)010【总页数】7页(P2319-2325)【关键词】红外焦平面阵列;辐射定标;线性回归【作者】李宁;杨词银;曹立华;郭立红【作者单位】中国科学院长春光学精密机械与物理研究所,吉林长春130033;中国科学院研究生院,北京100039;中国科学院长春光学精密机械与物理研究所,吉林长春130033;中国科学院长春光学精密机械与物理研究所,吉林长春130033;长春理工大学理学院,吉林长春130022;中国科学院长春光学精密机械与物理研究所,吉林长春130033【正文语种】中文【中图分类】TN2151 引言在对目标进行红外跟踪识别时，除了要得到目标的空间位置和几何形状等信息外，目标的红外辐射特性数据也很重要。

镜头盖处小口径黑体标定大口径红外辐射测量设备方法摘要：针对大口径红外辐射测量设备全口径标定子系统庞大、操作使用不便等问题，提出了小口径黑体标定大口径设备的模式，将小型黑体设置在设备镜头盖处，镜头盖采用分瓣设计并在某瓣镜头盖上设置可变窗口，通过窗口大小变化改变黑体辐射有效通光面积，配合黑体的升降温，获取一系列标定数据点，并逐段解算设备红外辐射响应曲线中高段标定参数；镜头盖分瓣组合改变引入天空辐射有效通光面积比例，并测量天空俯仰方向上辐射亮度变化，配合黑体-窗口组合，解算天空辐射，将设备响应动态范围逐步扩展至天空辐射，完成响应曲线标定动态范围低段到天空辐射扩展。

关键词：红外辐射特性部分口径黑体红外辐射标定部分口径标定黑体A method for calibrating large-aperture infrared radiation measuring equipment through small-aperture blackbody at the lens capFENG Xuchen，JIANG Zhifu，DENG Minghui（China Jiuquan Satellite launch Center Jiuquan,Gansu Province 732750）Abstract：In order to solve the problems of large caliber calibration subsystem and inconvenient opration of large aperture infrared radiation measurement equipment,a mode of calibrating large diameter equipment through small blackbody is put forword,and the small blackbody is set at the lens cover of the equipment.The lens cover adopts a split design,and a variable window is set on a lobe lens cover to change the effective light area of blackbody radiation through the change of window size to cooperate with the rising andfalling temperature of blackbody.A series of calibration data points are obtained,and the calibration parameters in the middle and high section of the infrared radiation response of the equipment are calculated step by step.The split combination of the lens cap changes the ratio of the effective light area of the sky radiation,and measure the change of the radiation brightness in the pitching direction ofthe sky,together with the blackbody +window to solve the skyradiation,gradually extends the dynamic range of the equipemnt responseto the sky radiation ,and completes the expansion of the response curve calibration dynamic range from the low section to the sky radiation.Keywords：Infrared radiation characteristics; Partial aperture blackbody; Infrared radiation calibration; Partial aperture calibration, blackbody.1引言目前跟踪望远镜式的红外辐射测量设备，部分配套黑体+全口径平行光管或全口径面源黑体等的标定子系统，对于大口径红外辐射测量设备，在外场使用条件有限的情况下，标定子系统结构庞大、成本较高、运输和操作使用不便，因此有必要设计更小巧简便的外场标定机构和方法。

H500型红外遥感定标高精度真空黑体辐射源的研制龚律宇;郝小鹏;孙建平;宋健;原遵东;顾明剑;丁雷【摘要】A high precision vacuum blackbody(H500 type)with the temperature range between-93 ℃ to 220 ℃ is developed at the National Institute Metrology of China.The performances are tested under the vacuum and low background condition (liquid-nitrogen-cooled shroud).The major technical parameters of the blackbody, such as the emissivity and uniformity are measured at room temperature and atmospheric environment.When the heating rate is 1 ℃/min, the time is shor ter than 50 minutes and the temperature stability is better than 0.01 ℃ during 10 minutes.The emissivity of the blackbody at 20 ℃, 30 ℃ and 50 ℃ are 0.9965, 0.9966 and 0.9963, respectively.The temperature uniformity at the bottom of the blackbody cavity is better than 0.03 ℃.The expanded uncertainty is better than 0.1 ℃(k=2) over the entire temperature range.%对中国计量科学研究院研制的温度范围覆盖-93~220 ℃的H500型红外遥感定标高精度真空黑体辐射源进行了介绍.采用圆柱圆锥黑体腔和双层4段PID控温,在真空低背景(液氮冷却)环境下对该黑体进行了性能测试,在大气室温环境下,利用控制环境辐射反射比发射率测量方法测量了黑体空腔发射率和利用红外标准辐射温度计测量空腔底部温度均匀性等指标.实验结果表明,该黑体辐射源升温速率为1 ℃/min 下,控制到温度点的稳定时间优于50 min,并且10 min内的温度稳定性在0.01 ℃以内;黑体温度设置在20 ℃、30 ℃和50 ℃下空腔发射率的测量结果分别为0.9965、0.9966和0.9963;其黑体底部温度均匀性优于0.03 ℃;在整个温度区域内扩展不确定度优于0.1 ℃(k=2).【期刊名称】《计量学报》【年(卷),期】2017(038)002【总页数】6页(P129-134)【关键词】计量学;真空黑体辐射源;红外遥感;黑体空腔发射率【作者】龚律宇;郝小鹏;孙建平;宋健;原遵东;顾明剑;丁雷【作者单位】成都理工大学核技术与自动化工程学院, 四川成都 610059;中国计量科学研究院, 北京 100029;中国计量科学研究院, 北京 100029;中国计量科学研究院, 北京 100029;中国计量科学研究院, 北京 100029;中国计量科学研究院, 北京100029;中国科学院上海技术物理研究所, 上海 200083;中国科学院上海技术物理研究所, 上海 200083【正文语种】中文【中图分类】TB942航天红外遥感是天基对地观测系统的重要观测手段，而高精度的实验室定标黑体辐射源，对于保持红外载荷高精度的观测水平具有重要作用。

基于大口径高温固定点黑体的光谱辐射照度国家基准量值复现新方法代彩红;王彦飞;李玲;吴志峰;谢一航【期刊名称】《光谱学与光谱分析》【年(卷),期】2024(44)4【摘要】采用国际前沿的大口径高温固定点黑体新技术,中国计量科学研究院NIM(National Institute of Metrology)组建了大口径钨碳-碳WC-C高温固定点黑体辐射源,在3020.11 K的融化点温度,实现了250~2500 nm光谱辐射照度、相关色温和分布温度基准的量值复现。

这是国际上首次将大口径高温固定点黑体技术成功应用于光谱辐射度基准复现领域。

针对大口径固定点黑体熔化温坪曲线的特点、以及测量期间温坪曲线中间部分缺失的问题,提出了固定点熔化温坪拐点温度计算新方法,重构了缺失的熔化温坪曲线。

采用光谱比较法,通过双光栅光谱比较测量系统将黑体的量值传递至光谱辐射照度副基准灯组,完成光谱辐射照度基准量值的复现和保存。

新的量值复现方法将黑体温度的测量不确定度减小为0.36 K,缩短了量传链,实现光谱辐射照度最佳测量不确定度0.25%(k=2)。

在250~2500 nm,基于固定点新方法和传统变温黑体法进行量值复现的平均偏差为0.42%,将两种方法相结合,最终实现我国光谱辐射照度基准的测量不确定度(k=2)为:250~400 nm,Urel=1.9%~0.43%;400~1000 nm,U rel=0.43%~0.25%;1000~2200 nm,Urel=0.25%~0.76%;2200~2500 nm,U rel=0.76%~2.4%。

基于固定点黑体的光谱辐射照度量值复现技术已经应用于遥感仪器的辐射定标,用于提升仪器的测量准确度。

【总页数】7页(P925-931)【作者】代彩红;王彦飞;李玲;吴志峰;谢一航【作者单位】中国计量科学研究院光学与激光计量科学研究所【正文语种】中文【中图分类】O432.1【相关文献】1.全辐照基准黑体辐射源量值溯源体系的建立2.新一代高温黑体和同步辐射装置及其在r地外太阳光谱辐照度测量中的应用3.红外高光谱大气探测仪星载固定点黑体辐射源的研制4.200～400nm短波紫外光谱辐射照度国家基准装置的研究与建立5.光谱辐射照度量值复现中计算大口径固定点黑体拐点温度的新方法因版权原因，仅展示原文概要，查看原文内容请购买。