[1] M. Petrov, A. Talapov, T. Robertson et al.. Optical 3D digitizers: bringing life to the virtual world［J］. IEEE Comput. Graph. Appl., 1998, 18(3): 28～37

[2] G. Sansoni, M. Trebeschi, F. Docchio. State-of-the-art and applications of 3D imaging sensors in industry, cultural heritage, medicine, and criminal investigation［J］. Sensors, 2009, 9(1): 568～601

[3] F. Chen, G. M. Brown, M. Song. Overview of three-dimensional shape measurement using optical methods［J］. Opt. Engng., 2000, 39(1): 10～22

[4] G. Blais. Review of 20 years of range sensor development［J］. J. Electron. Imaging, 2004, 13(1): 231～240

[5] M. Ribo, M. Brandner. State of the art on vision-based structured light systems for 3D measurements［C］. Proceedings of International Workshop on Robotic Sensors: Robotic and Sensor Environments, 2005. 2～6

[6] R. Tutsch, M. Petz, M. Fischer. Optical three-dimensional metrology with structured illumination［J］. Opt. Engng., 2011, 50(10): 101507

[7] D. Scharstein, R. Szeliski. A taxonomy and evaluation of dense two-frame stereo correspondence algorithms［J］. Int. J. Comput. Vis., 2002, 47(1): 7～42

[8] J. Salvi, S. Fernandez, T. Pribanic et al.. A state of the art in structured light patterns for surface profilometry［J］. Pattern Recognit., 2010, 43(8): 2666～2680

[9] C. Reich, R. Ritter, J. Thesing. 3-D shape measurement of complex objects by combining photogrammetry and fringe projection［J］. Opt. Engng., 2000, 39(1): 224～231

[10] P. Kuhmstedt, C. Munckelt, M. Heinze et al.. 3D shape measurement with phase correlation based fringe projection［C］. SPIE, 2007, 6616: 66160B

[11] R. Legarda-Saenz, T. Bothe, W. P. Juptner. Accurate procedure for the calibration of a structured light system［J］. Opt. Engng., 2004, 43(2): 464～471

[12] Atos-High Resolution, Optical 3D Scanner［E/OL］. http://www.gom.com/metrology-systems/3d-scanner.html

[13] Stereoscan-Maximum Flexibility and Accuracy［E/OL］. http://www.breuckmann.com/en/bodymetry-life-science/products/stereoscan.html

[14] Z Zhang, X. Peng, D. Zhang. Transformation Image into Graphics［M］// David Zhang, Mohamed Kamel, George Baciu. Integrated Image and Graphics Technologies. Norwell: Kluwer Academic Publishers, 2004. 111～129

[15] X. Peng, J. Tian. Three-Dimensional Multi-Resolution Imaging and Modeling［M］// W. T. Arkin. Nwe Developments in Lasers and Electro-Optics Research. New York: Nova Science Publishers, 2006. 117～152

[16] M. Levoy, K. Pulli, B. Curless et al.. The digital Michelangelo project: 3D scanning of large statues［C］. Proceedings of the 27th annual conference on Computer graphics and interactive techniques, 2000. 131～144

[17] D. Fleet, A. Hertzmann. Computer Graphics Lecture Notes［R］. Computer Science Department, University of Toronto, 2006

[18] J. Wang, F. Shi, J. Zhang et al.. A new calibration model of camera lens distortion［J］. Pattern Recognit., 2008, 41(2): 607～615

[19] D. C. Brown. Close-range camera calibration［J］. Photogramm. Engng., 1971, 37(8): 855～866

[20] J. Fryer, D. Brown. Lens distortion for close-range photogrammetry［J］. Photogramm. Engng. Remote Sens., 1986, 52(1): 51～58

[21] J. Heikkila, O. Silven. A four-step camera calibration procedure with implicit image correction［C］. Proceedings of IEEE Computer Society Conference on Computer Vision and Pattern Recognition, 1997. 1106～1112

[22] R. Hartley, A. Zisserman. Multiple View Geometry in Computer Vision［M］. Cambridge: Cambridge University Press, 2003

[23] X. Peng, X. Liu, Y. Yin et al.. Optical measurement network for large-scale and shell-like objects［J］. Opt. Lett., 2011, 36(2): 157～159

[24] Z. Zhang. Camera Calibration［M］//G. Medioni, S. B. Kang. Emerging Topics in Computer Vision Upper Saddle River: Prentice Hall, 2004. 5～43

[25] R. Tsai. A versatile camera calibration technique for high-accuracy 3D machine vision metrology using off-the-shelf TV cameras and lenses［J］. IEEE J. Robot. Autom., 1987, 3(4): 323～344

[26] Z. Zhang. A flexible new technique for camera calibration［J］. IEEE Trans. Pattern Anal. Mach. Intell., 2000, 22(11): 1330～1334

[27] R. Swaminathan, S. K. Nayar. Nonmetric calibration of wide-angle lenses and polycameras［J］. IEEE Trans. Pattern Anal. Mach. Intell., 2000, 22(10): 1172～1178

[28] M. T. Ahmed, A. A. Farag. Differential methods for nonmetric calibration of camera lens distortion［C］. Proceedings of the 2001 IEEE Computer Society Conference on Computer Vision and Pattern Recognition, 2001. II-477～II-482

[29] M. Ahmed, A. Farag. Nonmetric calibration of camera lens distortion: differential methods and robust estimation［J］. IEEE Trans. Image Processing, 2005, 14(8): 1215～1230

[30] J. Y. Bouguet. Camera Calibration Toolbox for Matlab［E/OL］. http://www.vision.caltech.edu/bouguetj/index.html

[31] Y. Yin, X. Peng, Y. Guan et al.. Calibration target reconstruction for 3-D vision inspection system of large-scale engineering objects［C］. SPIE, 2010, 7855: 78550V

[32] A. Fusiello. Uncalibrated euclidean reconstruction: a review［J］. Image Vis. Comput., 2000, 18(6-7): 555～563

[33] B. Triggs, P. F. McLauchlan, R. I. Hartley et al.. Bundle Adjustment: A Modern Synthesis［M］//B. Triggs. Vision Algorithms: Theory and Practice Berlin: Springer, 2000. 298～372

[34] T. Luhmann. Close range photogrammetry for industrial applications［J］. ISPRS-J. Photogramm. Remote Sens., 2010, 65(6): 558～569

[35] 殷永凯, 刘晓利, 李阿蒙 等. 圆形标志点的亚像素定位及其应用［J］. 红外与激光工程, 2008, 37(S1): 47～50

    Yin Yongkai, Liu Xiaoli, Li Ameng et al.. Sub-pixel location of circle target and its application［J］. Infrared Laser Engineering, 2008, 37(S1): 47～50

[36] J. Salvi, X. Armangué, J. Batlle. A comparative review of camera calibrating methods with accuracy evaluation［J］. Pattern Recognit., 2002, 35(7): 1617～1635

[37] J. H. Bruning, D. R. Herriott, J. E. Gallagher et al.. Digital wavefront measuring interferometer for testing optical surfaces and lenses［J］. Appl. Opt., 1974, 13(11): 2693～2703

[38] V. Srinivasan, H. C. Liu, M. Halioua. Automated phase-measuring profilometry of 3-D diffuse objects［J］. Appl. Opt., 1984, 23(18): 3105～3108

[39] M. Takeda, K. Mutoh. Fourier transform profilometry for the automatic measurement of 3-D object shapes［J］. Appl. Opt., 1983, 22(24): 3977～3982

[40] C. Quan, W. Chen, C. J. Tay. Phase-retrieval techniques in fringe-projection profilometry［J］. Opt. Lasers Engng., 2010, 48(2): 235～243

[41] J. Schwider, R. Burow, K. E. Elssner et al.. Digital wave-front measuring interferometry: some systematic error sources［J］. Appl. Opt., 1983, 22(21): 3421～3432

[42] 韦林彬. 多分辨深度图像重建算法与软件实现 ［D］. 天津: 天津大学, 2006

    Wei Linbin. Multiresolution Range Image Reconstruction and Its Software Implementation［D］. Tianjin: Tianjin University, 2006

[43] J. M. Huntley, H. Saldner. Temporal phase-unwrapping algorithm for automated interferogram analysis［J］. Appl. Opt., 1993, 32(17): 3047～3052

[44] 彭翔, 韦林彬, 邱文杰 等. 广义条纹图序列编码的相位重建［J］. 光学学报, 2006, 26(8): 1156～1161

    Peng Xiang, Wei Linbin, Qiu Wenjie et al.. Phase reconstruction based on generalized fringe pattern sequence encoding［J］. Acta Optica Sinica, 2006, 26(8): 1156～1161

[45] G. Sansoni, M. Carocci, R. Rodella. Three-dimensional vision based on a combination of gray-code and phase-shift light projection: analysis and compensation of the systematic errors［J］. Appl. Opt., 1999, 38(31): 6565～6573

[46] 孙学真, 苏显渝, 邹小平. 基于互补型光栅编码的相位展开［J］. 光学学报, 2008, 28(10): 1947～1951

    Sun Xuezhen, Su Xianyu, Zou Xiaoping. Phase unwrapping based on complementary structured light binary code［J］. Acta Optica Sinica, 2008, 28(10): 1947～1951

[47] S. Dong, X. Zhao, Y. Yin et al.. Sub-pixel matching with consideration of lens distortion［C］. SPIE, 2008, 7155: 71552H

[48] T. Hoang, B. Pan, D. Nguyen et al.. Generic gamma correction for accuracy enhancement in fringe-projection profilometry［J］. Opt. Lett., 2010, 35(12): 1992～1994

[49] 刘晓利. 多视场深度像造型中的若干关键技术［D］. 天津: 天津大学, 2007

    Liu Xiaoli. Key Techniques in Multiple Range Images Modeling［D］. Tianjin: Tianjin University, 2007

[50] 刘晓利, 彭翔, 殷永凯 等. 深度图像匹配的两种方法及比较［J］. 激光与光电子学进展, 2010, 47(12): 50～55

    Liu Xiaoli, Peng Xiang, Yin Yongkai et al.. Introduction and comparison of range image registration methods［J］. Laser & Optoelectronics Progress, 2010, 47(12): 50～55

[51] Y. Chen, G. Medioni. Object modeling by registration of multiple range images［C］. Proceedings of IEEE International Conference on Robotics and Automation, 1991. 2724～2729

[52] P. J. Besl, H. D. McKay. A method for registration of 3-D shapes［J］. IEEE Trans. Pattern Anal. Mach. Intell., 1992, 14(2): 239～256

[53] 刘晓利, 彭翔, 李阿蒙 等. 结合纹理信息的深度像匹配［J］. 计算机辅助设计与图形学学报, 2007, 19(3): 340～345

    Liu Xiaoli, Peng Xiang, Li Ameng et al.. Range images registration combined with texture information［J］. Journal of Computer-Aided Design & Computer Graphics, 2007, 19(3): 340～345

[54] 高鹏东, 彭翔, 李阿蒙 等. ICP框架下基于表面间平均体积测度的深度像配准［J］. 计算机辅助设计与图形学学报, 2007, 19(6): 719～724

    Gao Pengdong, Peng Xiang, Li Ameng et al.. Range image registration with ICP frame using surface mean inter-space measure［J］. Journal of Computer-Aided Design & Computer Graphics, 2007, 19(6): 719～724

[55] 高鹏东, 彭翔, 李阿蒙 等. 基于混合遗传算法和表面间平均体积度量的深度像匹配［J］. 计算机学报, 2007, 30(12): 2189～2197

    Gao Pengdong, Peng Xiang, Li Ameng et al.. Range image registration using a hybrid genetic algorithm and surface mean inter-space measure［J］. Chinese Journal of Computers, 2007, 30(12): 2189～2197

[56] 刘晓利, 彭翔, 殷永凯 等. 借助标志点的深度数据全局匹配方法［J］. 光学学报, 2009, 29(4): 1010～1014

    Liu Xiaoli, Peng Xiang, Yin Yongkai et al.. A method for global registration of range data combined with markers［J］. Acta Optica Sinica, 2009, 29(4): 1010～1014

[57] C. Reich. Photogrammetrical matching of point clouds for 3D measurement of complex objects［C］. SPIE, 1998, 3520: 100～110

[58] M. Soucy, D. Laurendeau. A general surface approach to the integration of a set of range views［J］. IEEE Trans. Pattern Anal. Mach. Intell., 1995, 17(4): 344～358

[59] G. Turk, M. Levoy. Zippered polygon meshes from range images［C］. Proceedings of the 21st Annual Conference on Computer Graphics and Interactive Techniques, 1994. 311～318

[60] B. Curless, M. Levoy. A volumetric method for building complex models from range images［C］. Proceedings of the 23rd Annual Conference on Computer Graphics and Interactive Techniques, 1996. 303～312

[61] 刘晓利, 彭翔, 李阿蒙 等. 基于射线投影的多视场深度像融合［J］. 计算机辅助设计与图形学学报, 2007, 19(10): 1286～1291

    Liu Xiaoli, Peng Xiang, Li Ameng et al.. Integration of multiple range images based on ray casting［J］. Journal of Computer-Aided Design & Computer Graphics, 2007, 19(10): 1286～1291

[62] J. Cohen, A. Varshney, D. Manocha et al.. Simplification envelopes［C］. Proceedings of the 23rd annual conference on Computer graphics and interactive techniques, 1996. 119～128

[63] M. Garland. Multiresolution modeling: survey & future opportunities［C］. Proceedings of Eurographics′99, State of the Art Report, 1999. 111～131

[64] M. Garland, P. S. Heckbert. Surface simplification using quadric error metrics［C］. Proceedings of the 24th Annual Conference on Computer Graphics and Interactive Techniques, 1997. 209～216

[65] 刘晓利, 刘则毅, 高鹏东 等. 基于尖特征度的边折叠简化算法［J］. 软件学报, 2005, 16(5): 669～675

    Liu Xiaoli, Liu Zeyi, Gao Pengdong et al.. Edge collapse simplification based on sharp degree［J］. Journal of Software, 2005, 16(5): 669～675