A new approach to FLIR MRTD testing

Conference Record AUTOTESTCON '92: The IEEE Systems Readiness Technology Conference Pub Date : 1992-09-21 DOI:10.1109/AUTEST.1992.270077

W. Rock, L. Roque

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引用次数: 1

Abstract

A key performance parameter of thermal imaging systems is the minimum resolvable temperature difference (MRTD). The authors describe a new approach to on-platform end-to-end thermal imaging system testing which can be accomplished in an unstable field environment, and application of the technique to a superior cost effective field MRTD test system. The new approach consists of quickly establishing the system radiometric zero and very accurately referencing all blackbody temperatures to the radiometric zero. This approach provides excellent radiometric control, resolution, stability, and speed that are needed for meaningful field testing of thermal imaging systems. A test system which incorporates the technology, the portable electrooptics tester (PET), is a small, man-portable field forward-looking IR (FLIR) MRTD test system. The PET was designed to accurately measure multiple spatial frequency minimum resolvable temperatures (MRTs) within minutes of power application. A novel technique is also used to determine if the thermal imaging system under test is mission capable, even if it is not performing to its design specification.<>

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FLIR MRTD测试的新方法

热成像系统的一个关键性能参数是最小可分辨温差(MRTD)。作者描述了一种新的平台端到端热成像系统测试方法，该方法可以在不稳定的现场环境中完成，并将该技术应用于高性价比的现场MRTD测试系统。新方法包括快速建立系统的辐射零点，并非常准确地将所有黑体温度参考到辐射零点。这种方法提供了出色的辐射控制，分辨率，稳定性和速度，需要有意义的热成像系统的现场测试。采用该技术的测试系统，便携式光电测试仪(PET)，是一种小型、单兵便携式现场前视红外(FLIR) MRTD测试系统。PET设计用于在通电几分钟内精确测量多个空间频率最小可分辨温度(mrt)。一项新技术也被用于确定被测热成像系统是否具备执行任务的能力，即使它没有按照其设计规范执行

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Conference Record AUTOTESTCON '92: The IEEE Systems Readiness Technology Conference

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