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http://dx.doi.org/10.3807/COPP.2019.3.1.008

Common Optical System for the Fusion of Three-dimensional Images and Infrared Images  

Kim, Duck-Lae (Seeker & EO/IR R&D Lab, LIG Nex1)
Jung, Bo Hee (Seeker & EO/IR R&D Lab, LIG Nex1)
Kong, Hyun-Bae (Seeker & EO/IR R&D Lab, LIG Nex1)
Ok, Chang-Min (Seeker & EO/IR R&D Lab, LIG Nex1)
Lee, Seung-Tae (Seeker & EO/IR R&D Lab, LIG Nex1)
Publication Information
Current Optics and Photonics / v.3, no.1, 2019 , pp. 8-15 More about this Journal
Abstract
We describe a common optical system that merges a LADAR system, which generates a point cloud, and a more traditional imaging system operating in the LWIR, which generates image data. The optimum diameter of the entrance pupil was determined by analysis of detection ranges of the LADAR sensor, and the result was applied to design a common optical system using LADAR sensors and LWIR sensors; the performance of these sensors was then evaluated. The minimum detectable signal of the $128{\times}128-pixel$ LADAR detector was calculated as 20.5 nW. The detection range of the LADAR optical system was calculated to be 1,000 m, and according to the results, the optimum diameter of the entrance pupil was determined to be 15.7 cm. The modulation transfer function (MTF) in relation to the diffraction limit of the designed common optical system was analyzed and, according to the results, the MTF of the LADAR optical system was 98.8% at the spatial frequency of 5 cycles per millimeter, while that of the LWIR optical system was 92.4% at the spatial frequency of 29 cycles per millimeter. The detection, recognition, and identification distances of the LWIR optical system were determined to be 5.12, 2.82, and 1.96 km, respectively.
Keywords
Atmospheric turbulence; LIDAR; Thermal imaging; Optical design;
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