中国光学, 2018, 11 (5): 804, 网络出版: 2018-11-25
基于红外辐射特性系统实现对面目标测量
Opposite target measurement based on infrared radiation characteristic system
红外辐射测量系统 辐射定标 面源目标 温度反演 infrared radiation measurement system radiation calibration surface type target temperature inversion
摘要
地基红外经纬仪是测量空间**和科学目标红外数据的重要手段之一。随着现代**技术在隐身上方面的快速发展, 面源体测量越显重要,而辐射亮度是面源红外作战的关键性指标。因此研究可靠的面积分析方法和辐射亮度计算方法对测试航空目标的隐身性能以及研制面源红外假目标具有重要的意义。本文提出一种简单可靠的面目标的提取方法,并利用该面源提取方法在某600 mm口径的红外经纬仪上进行辐射测量, 测量数据经大气修正后将与标准亮度值进行比较。实验结果表明, 利用本文提出的方法反演的辐射亮度的最大误差为1138%, 均方根误差为736%。
Abstract
The ground-based infrared theodolite is one of the most important means of measuring infrared data of military and scientific targets in space. With the rapid development of modern weapons technology in stealth, the measurement of surface target is becoming more and more important and the radiation brightness is a key indicator of surface type infrared combat. Therefore, it is of great significance to study area analysis method and radiance calculation method to test the stealth performance of the aviation target and to develop surface type infrared false target. In this paper, a simple and reliable method for extracting surface targets is proposed. By this method, radiation measurement is performed on a 600 mm aperture infrared theodolite. The measured data is compared with the standard brightness value after atmospheric correction. The experimental results show that the maximum error of the radiance inversion is 1138% and the root mean square error is 736%. The experimental results show the effectiveness and reliability of the measurement method.
乔铁英, 蔡立华, 李宁, 李周, 李成浩. 基于红外辐射特性系统实现对面目标测量[J]. 中国光学, 2018, 11(5): 804. QIAO Tie-ying, CAI Li-hua, LI Ning, LI Zhou, LI Cheng-hao. Opposite target measurement based on infrared radiation characteristic system[J]. Chinese Optics, 2018, 11(5): 804.