[1] Krishnasamy R, Thomas P, Pepic S, et al. Calibration techniques for object tracking using a compound eye image sensor [J]. Proceeding of SPIE(S0277-786X), 2004, 5611: 42–52.
[2] Krishnasamy R. Calibration of an electronic compound eye image sensor [D]. [S. l.]: York University Toronto, Ontario, 2004.
[3] Konstantinos B, Cornelia F. Depth estimation using the compound eye of dipteran flies [J]. BiolCyberns(S0340-1200), 2006, 95: 487-501.
[4] Tanida J, Kumagai T, Yamada K, et al. Thin observation module by bound optics (TOMBO): concept and experimental verification [J]. Applied Optics(S1559-128X), 2001, 40(11): 1806–1813.
[5] Kagawa K, Tanabe H, Ogatab C, et al. A compact shape-measurement module based on a thin compound-eye camera with multi-wavelength pattern projection for intraoral diagnosis [C]// Optics and photonics for information processing, San Diego, America, August 4-6, 2009, 7442: 74420U–1.
[6] GUO Fang, WANG Keyi, YAN Peizheng, et al. Calibration of compound eye system for target positioning with large field of view [J]. Optics and Precision Engineering, 2012, 20(5): 913–920.
[7] LIU Chungyou, CHUANG Junfu, Ting-Chieh Yu, et al. Use bionic microlens array and CMOS image sensor for three-dimensional motion detection [C]// Nano/Micro Engineered and MolecularSystems, 7th Annual IEEE International Conference, Kyoto, Japan, March 5-8, 2012: 388-391.
[8] Tsai R Y. An efficient and accurate camera calibration technique for 3D machine vision [C]// Proceeding of IEEE Conference of Computer Vision and Pattern Recognition, Miami, America, June 22-26, 1986: 364–374.
[9] Zhang Z Y. A flexible new technique for camera calibration [J]. IEEE Transactions on Pattern Analysis and Machine Intelligence(S0162-8828), 2000, 22(11): 1330–1334.
[10] Faugeras D, Toscani G. The calibration problem for stereo [C]// Proceeding of IEEE Conference of Computer Vision and Pattern Recognition, Miami, America, June 22-26, 1986: 15–20.
[11] ZHANG Guangjun. Machine Vision [M]. Beijing: Science Press, 2005.