[1] Zhang Z Y. A flexible new technique for camera calibration［J］. IEEE Trans. on Pattern Analysis and Machine Intelligence, 2000, 22(11): 1330-1331.

[2] Sobel I. On calibrating computer controlled cameras for perceiving 3-D scenes［J］. Artificial Intelligence, 1974, 5(2): 185-198.

[3] Albdel-Aziz Y I, Karara H M. Direct linear transformation from comparator coordinates into object space coordinates in close-range photogrammetry［J］. Photogrammetric Engin. & Remote Sensing, 2015, 81(2): 103-107.

[4] Albdel-Aziz Y I, Karara H M. Photogrammetric potential of non-metric cameras［D］. Urbaua: Univ. of Illinois, 1974: 45-48.

[5] Karara H M. Handbook of non-topographic photogrammetry［J］. Amen Soc. of Photogrammetry, 1979, 16(28): 667-668.

[6] Itoh H, Miyauchi A, Ozawa S. Distance measuring method using only simple vision constructed for moving robots［R］. Montreal, PQ, Canada, 1984: 192.

[7] Luh J Y, Klaasen J A. A three-dimensional vision by off-system with multi-cameras［J］. IEEE Trans. Pattern Anal. Machine Intell., 1985(1/7): 35-45.

[8] Wu Y H, Zhu H J, Hu Z Y, et al. Camera calibration from the quasi-affine invariance of two parallel circles［C］// The 8th European Conf. on Computer Vision (ECCV), 2004: 190-202.

[9] 雷 成, 吴福朝, 胡占义. 一种新的基于主动视觉系统的摄像机自标定方法［J］. 计算机学报, 2000, 23(11): 1130-1139.Lei Cheng, Wu Fuzhao, Hu Zhanyi. A new camera self-calibration method based on active vision system［J］. J. of Computer Science, 2000, 23(11): 1130-1139.

[10] 杨博文, 张丽艳, 叶 南, 等. 面向大视场视觉测量的摄像机标定技术［J］. 光学学报, 2013, 32(9): 0915001.Yang Bowen, Zhang Liyan, Ye Nan, et al. Camera calibration technology for vision measurement of large field of view［J］. J. of Opt., 2012, 32(9): 0915001.

[11] 林武康. 摄像机大视场标定方法研究［D］. 哈尔滨: 哈尔滨工业大学, 2011: 13-42.Lin Wukang. Study on the calibration method of camera with large field of view［D］. Harbin: Harbin Institute of Technol., 2011: 13-42.

[12] Peng E, Ling L. Camera calibration using one-dimensional information and its application in both controlled and uncontrolled environments［J］. Pattern Recognition, 2010, 43(S0031-3203): 1188-1198.

[13] Wei Z Z, Cao L J. A novel 1D target based calibration method with unknown orientation for structured light vision sensor［J］. Opt. & Laser Technol., 2010, 42(4): 570-574.

[14] 刘 震, 尚砚娜. 立体视觉传感器的一种灵活靶标新标定方法［J］. 光学学报, 2013, 33(3): 0315001.Liu Zhen, Shang Yanna. A new flexible target calibration method for stereo vision sensors［J］. J. of Opt., 2013, 33(3): 0315001.

[15] 马 飞. 运动仿真试验中测试系统标定与数据处理方法研究［D］. 哈尔滨: 哈尔滨工业大学, 2013: 29-40.Ma Fei. Research on calibration and data processing method of test system in motion simulation test［D］. Harbin: Harbin Institute of Technol., 2013: 29-40.

[16] Svoboda T. A convenient multi-camera self-calibration for virtual enviroments［J］. Teleoperators and Virtual Environments, 2005, 14(4): 407-422.

[17] Olsen B D, Hoover A. Calibrating a camera network using a domino grid［J］. Pattern Recognition, 2001, 34(5): 1105-1117.

[18] Tsai R Y. A versatile camera calibration technique for high-accuracy 3D machine vision metrology using off-the-shelf TV camera and lenses［J］. IEEE J. Robotics and Automation, 1987, RA-3(4): 323344.

[19] Weng J Y, Cohen P, Herniou M. Camera calibration with distortion models and accuracy evaluation［J］. IEEE Trans. on Pattern Analysis and Machine Intelligence, 1992, 14(10): 965-980.

[20] 周 洋. 基于单目视觉的近景摄影立木测量方法研究［D］. 哈尔滨: 东北林业大学, 2017: 30-40.Zhou Yang. Study on measuring method of close-range photographic stands based on monocular vision［D］. Harbin: Northeast Forestry University, 2017: 30-40.

[21] Huang Y, Li Q, Zhang B. Study on fisheye lens calibration and distortion correction［J］. Computer Engin. and Design, 2014, 35(9): 3132-3135.

[22] Scaramuzza D, Martinelli A, Siegwart R. A flexible technique for accurate omnidirectional camera calibration and structure from motion［C］// IEEE Inter. Conf. on Computer Vision Systems, 2006: 45-45.

[23] Steffen U, Jens L, Steffen H. Improved wide-angle, fisheye and omnidirectional camera calibration［J］. ISPRS J. of Photogrammetry and Remote Sensing, 2015, 108: 72-79.

[24] 高 婷. 大视场短焦距摄像机标定的研究与应用［D］. 西安: 西安电子科技大学, 2014: 15-24.Gao Ting. Research and application of large field of view short focal length camera calibration［D］. Xian: Xidian University, 2014: 15-24.

[25] Vladimir M K, Konusgun A. A framework for depth image-based and rendering［J］. GraphiCon Moscow Russia, 2003: 169-171.

[26] Geiger A, Moosmann F, Car O, et al. Automatic camera and range sensor calibration using a single shot［C］// IEEE Inter. Conf. on Robotics and Automation(ICRA), 2012: 3936-3943.

[27] Shan B H, Yuan W T, Liu Y. A calibration method of stereo vision system based on solid circle target［J］. J. of Opt., 2016(9): 225-234.

[28] 祝海江, 李仕刚. 基于2D与3D包围式标定块的鱼眼相机标定［J］. 仪器仪表学报, 2008, 29(7): 1512-1516.Zhu Haijiang, Li Shigang. 2D pattern vs. surrounding 3D pattern for fisheye camera calibration［J］. Chinese J. of Scientific Instrument, 2008, 29(7): 1512-1516.

[29] 吴焕芝. 基于粒子群优化的单目摄像机标定算法研究［D］. 青岛: 中国海洋大学, 2014: 24-39.Wu Huanzhi. Research on the calibration algorithm of monocular camera based on particle swarm optimization［D］. Qingdao: Ocean University, 2014: 24-39.

[30] Faugeras O D, Iuong Q T, Maybank S J. Camera self-calibration: theory and experiments［C］// European Conf. on Computer Vision, 1992: 321-334.

[31] Baker P, Aloimonos Y. Complete calibration of a multi-camera network［C］// IEEE Workshop on Omnidirectional Vision, 2000: 134-141.

[32] 李为民, 俞巧云, 刘 超. 采用分离式差分标定靶的单摄像机标定方法［J］. 光学学报, 2006, 26(5): 51-55.Li Weimin, Yu Qiaoyun, Liu Chao. Single camera calibration method using discrete differential calibration targets［J］. J. of Opt., 2006, 26(5): 51-55.

[33] 李为民, 孟 昊, 王建平, 等. 单场景摄像机的大视场标定［J］. 中国科学技术大学学报, 2007, 37(6): 627-630.Li Weimin, Meng Hao, Wang Jianping, et al. Wide view calibration of single cameras［J］. J. of University of Science and Technology of China, 2007, 37(6): 627-630.

[34] 宋 晋. 基于立体视觉的全视场风洞尾旋姿态测量系统设计与实现［D］. 重庆: 重庆大学, 2016: 31-36.Song Jin. Design and implementation of the attitude measurement system for the full-field wind tunnel based on stereo vision［D］. Chongqing: Chongqing University, 2016: 31-36.

[35] Shah S, Aggarwal J. A simple calibration procedure for fish-eye(high distortion) lens camera［C］// IEEE Inter. Conf. on Robotics and Automation (ICRA), 1994: 3422-3427.

[36] Xiong Y, Turkowski K. Creating image-based VR using a self-calibrating fisheye lens［C］// IEEE Conf. on Computer Vision and Pattern Recognition (CVPR), 1997: 237-243.

[37] 杨 明, 仲小清, 霍 炬. 大视场摄像机高精度快速现场标定方法［J］. 电光与控制, 2011, 18(6): 56-61.

    Yang Ming, Zhong Xiaoqing, Huo Ju. High accuracy and fast field calibration method for large field cameras［J］. Electro-Opt. and Control, 2011, 18(6): 56-61.

[38] 刘小娟, 李学军, 王文韫, 等. 基于神经网络的虚拟靶标大视场双目相机标定技术［J］. 光学技术, 2017, 43(4): 314-318.

    Liu Xiaojuan, Li Xuejun, Wang Wentao, et al. Calibration technology of large field binocular camera based on neural network for virtual target［J］. Opt. Technol., 2017, 43(4): 314-318.

[39] 李华晋. 非参数模型相机标定方法及误差分析［D］. 天津: 天津大学精密仪器与光电子工程学院, 2013: 16-22.

    Li Huajin. Calibration method and error analysis of non-parametric model camera［D］. Tianjin: Tianjin University, 2013: 16-22.

[40] 范宇琪. 基于三目立体视觉系统的大视场标定及优化方法研究［D］. 哈尔滨: 哈尔滨理工大学, 2017: 19-33.

    Fan Yuqi. Study on large field calibration and optimization method based on three-mesh stereoscopic vision system［D］. Harbin: Harbin University of Technol., 2017: 19-33.

[41] 程梦娇, 申夏晶, 肖江剑, 等. 基于激光扫描的鱼眼相机三维标定方法［J］. 光学学报, 2017, 37(3): 0315001.

    Cheng Mengjiao, Shen Xiajing, Xiao Jiangjian, et al. Three-dimensional calibration method of fisheye camera based on laser scanning［J］. J. of Opt., 2017, 37(3): 0315001.

[42] Sturm P, Ramalinga S. A generic concept for camera calibration［C］// European Conf. on Computer Vision, 2004: 1-13.

[43] Stephen V, Ruan L, Simon D, et al. A mask-based approach for the geometric calibration of thermal-infrared cameras［J］. IEEE Trans. on Instrumentation and Measurement, 2012, 61(6): 1625-1635.

[44] 赵美蓉, 李瀚辰, 佟 颖. 一种红外与可见光融合的“双双目”立体视觉系统的标定方法研究［J］. 光学技术, 2017, 43(5): 385-393.Zhao Meirong, Li Hanchen, Tong Ying. Research on calibration method of "binocular" stereoscopic vision system with infrared and visible light fusion［J］. Opt. Technol., 2017, 43(5): 385-393.