[1] BEER R,MARJANIENI D. Wavefronts and construction tolerances for a cat′s-eye retroreflector[J]. Applied Optics,1966,5(7):1191-1197.
[2] WILD N R,LEAVY P M. Optical detection system[P]. United States Patent,6603134B1,2003.
[3] CILAS-SLD-500,http://www.cilas.com/,2013.
[4] LINDGREN D,BANK D,CARLSSON L,et al. Configurations for early sniper detection[C]. SPIE,2011,8186:81860D-1.
[5] REN Xi-ming,LI Li. Recognizing cat-eye targets with dual criterions of shape and modulation frequency[J]. Chinese Optics Letters,2011,9(4):041101-041104.
[6] LI Li,WANG Xing-bin,ZHANG Wei-guo. A recognition method of “cat-eye”effect target based on texture character[J]. Acta Photonica Sinica,2014,43(2):0210001.
[8] ZHANG Bo,NIU Yan-xiong,ZHANG Chu,et al. Analysis of influence factors for reflected wave power of ‘cat-eye’ target[J]. Infrared and Laser Engineerring,2009,38(3):420-423.
[9] ZHAO Yan-zhong,SUN Hua-yan,SONG Feng-hua,et al. Reseach on the mechanism of reflection characteristics of laser irradiation on the cat eye optical lens[J]. Acta Physica Sinica,2008,57(4):2284-2294.
[10] MA Yuan,JI Xiao-Ling. Average intensity of tilted and off-axis Gaussian Schell-model beams propagating through a cat-eye optical lens in atmospheric turbulence[J]. Acta Physica Sinica,2013,62(9):094214.
[11] SONG Yong,HAO Qun,WANG Yong-tian,et al. The comparison and the current developments of COMS image sensor and CCD[J]. Journal of Instrμment,2001,22(3):387-389.
[12] DENG Guang-hua,ZHOU Xu-dong,ZHANG Kun,et al. 256×256 high frame-rate visible light CCD[J]. Semiconductor Optoelectronics,2004,25(4):265-264.
[13] KE S,LIANGJIN H,XIANGAI C,et al. Analysis and simulation of the phenomenon of second spots of the TDI CCD camera irradiated by CW laser[J]. Optics Express,2011,19(24):23901-23907.
