[1] OHGREN J, KULLANDER F, WANG Q, et al. A high-speed modulated retro-reflector communication link with a transmissive modulator in a cat′s eye optics arrangement［C］. Proceedings of SPIE, 2007, 6736: 673619.

[2] RABINOVICH WS, GOETZA PG, MAHON R, et al. Cat′s eye quantum well modulating retro-reflectors for free space optical communications［C］. Proceedings of SPIE, 2003, 497: 104-114.

[3] GOETZP G, RABINOVICH W S, MAHON R, et al. Modulating retro-reflector lasercom systems for small unmanned vehicles［J］. IEEE Journal on Selected Areas in Communications, 2012, 30(5): 986-992.

[4] 李大社,华臻,管绍鹏. 无线激光通信APT系统的研究［J］. 烟台大学学报: 自然科学与工程版,2007,20(3): 38-42.

    LI Da-she, HUA Zhen, GUAN Shao-peng. Study of Acquisition, Pointing and Tracking (APT) system for wireless laser communication［J］. Journal of Yantai University, 2007, 20(3): 38-42.

[5] HOT H, TRISNO S, SMOLYANINOV I I, et al. Studies of pointing, acquisition, and tracking of agile optical wireless transceivers for free-space optical communication networks［C］. Proceedings of SPIE, 2004, 5237: 147-158.

[6] GOETZP G, RABINOVICH W S, MAHON R, et al. Modulating retro-reflector devices and current link performance at the naval research laboratory［C］. Military Communications Conference, 2007, 1-4244-1513-06/07.

[7] JIA Hong-hui, YIN Hong-wei, ZHANG Hai-liang. Study on the heterodyning scattering of retroreflective free-space optical communication with optical heterodyning［J］. Journal of the Optical Society of America A, 2013, 30(11): 2286-90.

[8] YIN Hong-wei, LAN Tian-peng. Theoretical evaluation of scattering effect on retroreflective free-space optical communication［J］. Journal of the Optical Society of America A, 2012, 29(12): 2606-2611.

[9] HANDEREK V, LAYCOCK L. Feasibility of retroreflective free-space optical communication using retroreflectors with very wide field of view［C］. Proceedings of SPIE, 2004, 5614: 1-9.

[10] OHGREN J, KULLANDER F, JOHAN L, et al. A high-speed modulated retro-reflector communication link with a transmissive modulator in a cat′s eye optics arrangement［C］. Proceedings of SPIE, 2007, 6736: 673619.

[11] TIZIANI H J, PEDRINI G. From speckle pattern photography to digital holographic interferometry［Invited］［J］. Applied Optics, 2013, 52(1): 30-44.

[12] MARGALITI, GARCIA J, TEICHER M, et al. Simultaneous remote extraction of multiple speech sources and heart beats from secondary speckles pattern［J］. Optics Express, 2009, 17(24): 21566-21580.

[13] WANG Jing, WANG Ya-fei. Properties of cat-eye modulating retro-reflector and its application with piezoelectric transducer［J］. Optik, 2014, 125(16): 4501-4504.

[14] CHANGC C, TSAI J. Design, fabrication, and characterization of tunable cat′s eye retroreflector arrays as optical identification tags［J］. Journal of Lightwave Technology, 2014, 32(3): 384-391

[15] ZHOUP, GOODSON K E. Subpixel displacement and deformation gradient measurement using digital image/speckle correlation (DISC)［J］. Optical Engineering, 2001, 40(8): 1613-1620.

[16] SONG L, ELSON D S. Effect of signal intensity and camera quantization on laser speckle contrast analysis［J］. Biomedical Optics Express, 2013, 4(1): 89-104.

[17] LECOMPTED, SMITS A. Quality assessment of speckle patterns for digital image correlation［J］. Optics and Lasers in Engineering, 2006, 44(11): 1132-1145

[18] 邱建军,张红艳,骆卫华,等. 像面散斑平均尺寸对激光散斑成像的影响［J］. 光学学报,2009,29(7): 1863-1867.

    QIU Jian-jun, ZHANG Hong-yan, LUO Wei-hua, et al. Impact of average image speckle size on laser speckle imaging［J］. Acta Optica Sinica, 2009, 29(7): 1863-1867.