[1] Yongkun LI, Zhaorong LIN, Xuguo ZHANG. Development survey of foreign aerial cameras for distant oblique reconnaissance. Spacecraft Recovery & Remote Sensing, 38, 11-18(2017).

[2] Zhifeng CHENG, Fuhe LIU, Xianchao XUN. Opto-mechanical design and analysis of dual-band sharing aperture imaging system. Infrared and Laser Engineering, 44, 3366-3372(2015).

[3] Haibin ZHU, Yu SHAO, Yuanjian ZHANG, . Optical system design of visible/infrared and double-FOV panoramic aerial camera. Journal of Applied Optics, 38, 7-11(2017).

[4] J H LEE, Y S JUNG, S Y RYOO, et al. Imaging performance analysis of an EO/IR dual band airborne camera. Journal of the Optical Society of Korea, 15, 174-181(2011).

[5] M IYENGAR. The Goodrich 3rd generation DB-110 system: operational on tactical and unmanned aircraft. Health Care Management Review, 620909, 1-14(2006).

[6] S H WYATT. Dual spectral band reconnaissance systems for multiple platforms. SPIE, 4824, 36-46(2002).

[7] Hongwei SHI, Shiping CHEN. A remote sensing image quality standard orienting to user’s mission requirements -NIIRS. Spacecraft Recovery & Remote Sensing, 24, 34-39(2003).

[8] [8] MICHAEL L J, JAMES H, DANIEL V, el al. Electrooptical system design, analysis testing[M]. Translated by YANG Yinghuai. Beijing: 8358 Institute of the Third Research Institute of Aerospace Industry Cpation, 2001: 124144.

[9] G C HOLST, K A KRAPELS, C OLSON, et al. Model development and system performance optimization for staring infrared search and track (IRST) sensors. International Society for Optics and Photonics, 9820, 98200B(2016).

[10] Huilin WANG, Fei NING, Tao FENG. Evaluation of operational distance of photoelectric detection equipment based on TTP criterion. Journal of Applied Optics, 40, 1-7(2019).

[11] [11] WILLIAMS C S, BECKLUND O A. Introduction to the optical transfer function[M]. US: SPIE Press, 2002.

[12] [12] HOLST G C. Electrooptical imaging system perfmance[M]. Translated by YAN Jixiang, YU Xin, XIE Tianbao, et al. 4th ed. Beijing: National Defense Industry Press, 2015: 136141.

[13] Liang CHEN, Weijun LI, Chen CHEN, . Efficiency contrast of digital image definition functions for general evaluation. Computer Engineering and Applications, 49, 152-155(2013).

[14] [14] GUELER R, OLSON C, SPARKS A. Inflight optical perfmance measurement of highresolution airbne imagery[C]Infrared Imaging Systems: Design, Analysis, Modeling, Testing XXVIII. US: International Society f Optics Photonics, 2017: 1017806.

[15] [15] SU Datu. Optical measurement image quality identification[M]. Beijing: Beijing Institute of Technology Press, 1988: 374375.

[16] [16] HAN Changyuan. Optical system image quality evaluation test[M]. Changchun: Changchun Institute of Optics, Fine Mechanics Physics, Chinese Academy of Science, 2013: 2643.

[17] Changyuan HAN. Performance optimization of electro-optical imaging systems. Optics and Precision Engineering, 23, 1-9(2015).

[18] [18] LI Xiaotong, CEN Zhaofeng. Geometrical optics, aberrations Optical Design[M]. Hangzhou: Zhejiang University Press, 2014.

[19] [19] HOLST G C. Electrooptical imaging system perfmance[M]. 5th ed. Washington DC: JCD Publishing, 2008: 8486.

[20] R R SHANNON. A useful optical engineering approximation. Optics & Photonics News, 5, 34(1994).