Journal of Infrared and Millimeter Waves, Volume. 42, Issue 6, 874(2023)
Analysis of the operating distance of infrared polarimetric imaging system considering the non-ideality of the detector
References(19)
[1] JIANG Yao-Ting, PAN Li-Na. Military Applications and Prospects of Infrared Imaging Technology[J]. OME Information, 26-29(2003).
[2] HAO Xiao-Peng, SONG Jian, SUN Jian-Ping et al. Vacuum radiance temperature national standard facility for Infrared remote sensors of Chinese Fengyun meteorological satellites[J]. Optical Precision Engineering, 23, 1845-1851(2015).
[3] XIAO Zuo-Chao, LIU Bin, WEI Jian-Cheng. Exploration of the innovative integration of infrared thermal imaging technology and artificial intelligence technology[J]. China Security, 30-34(2020).
[4] WU Xue-Peng, WANG Bo. Research on the Protection Technology of Infrared Thermal Imagers in Marine Environment[J]. Precision Manufacturing and Automation, 2019, 1-3+14.
[5] Jones M W, Persons C M. Performance predictions for micro-polarizer array imaging polarimeters[C], 6682, 51-61(2007).
[6] Preece B, Hodgkin V A, Thompson R et al. Predicted NETD performance of a polarized infrared imaging sensor[C], 9071, 92-101(2014).
[7] Finney G A, Persons C M, Phillips D J. Performance of a microgrid polarizer array employing a micro-optic registration element[C], 10655, 85-95(2018).
[8] WANG Juan, YANG Chun-Ping, WU Jian. Programming Calculation of MRTD Performance Parameters for Thermal Imaging Systems[J]. Optics and Optoelectronics Technology, 1, 56-58(2003).
[9] HU Xiao-Qiang, ZHANG Jing. Analysis of the operating range of infrared polarization detection systems[J]. Laser and Infrared, 46, 709-712(2016).
[10] XIA Run-Qiu, WANG Xia, JIN Wei-Qi et al. Model of the operating range of infrared polarization imaging systems in sea environment[J]. Infrared and Laser Engineering, 45, 74-78(2016).
[11] Dudzik M C. Electro-optical systems design, analysis, and testing[C], 4, 245-298(1993).
[12] WANG Hong-Pei, LUAN Guang-Qi, TIAN Chao et al. The effect of weather conditions on the performance of infrared assisted driving in vehicles[J]. Infrared and Laser Engineering, 49, 84-90(2020).
[13] Ratches J A, Vollmerhausen R H, Driggers R G. Target acquisition performance modeling of infrared imaging systems: past, present, and future[J]. IEEE Sensors Journal, 1, 31-40(2002).
[14] YIN Jia-Qi. Research on Key Technologies of Infrared Division-of-Focal-Plane Polarization Imaging Detection[D](2021).
[15] Meyers J P, Schott J R, Brown S D. Incorporation of polarization into the DIRSIG synthetic image generation model[C], 4816, 132-143(2002).
[16] ZHOU Cheng-Hao. Modeling and Analysis of Operating Range of Infrared Polarization Imaging System[D](2013).
[17] Bevington P R, Robinson D K, Blair J M et al. Data reduction and error analysis for the physical sciences[J]. Computers in Physics, 7, 415-416(1993).
[18] ZHANG Xiao-Lin. On the Influence of Atmospheric Transmittance on Distance in the Distance Equation of Infrared Systems[J]. Laser and Infrared, 36, 168-170(2006).
[19] DUAN Jin, FU Qiang, ZHANG Su et al. Research on the Transmission Characteristics of Polarized Light in Smoke Environment[M](2020).
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Chang TAN, Shi-Yong WANG, Si-Li GAO. Analysis of the operating distance of infrared polarimetric imaging system considering the non-ideality of the detector[J]. Journal of Infrared and Millimeter Waves, 2023, 42(6): 874
Paper Information
Category: Research Articles
Received: Mar. 1, 2023
Accepted: --
Published Online: Dec. 26, 2023
The Author Email: Shi-Yong WANG (s_y_w@sina.com)
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