对复杂自由曲面的纹理重建方法
刘星明, 蔡铁, 李阿蒙, 王辉静, 闫立军. 对复杂自由曲面的纹理重建方法[J]. 光子学报, 2017, 46(6): 0612003.
LIU Xing-ming, CAI Tie, LI A-meng, WANG Hui-jing, YAN Li-jun. Texture Reconstruction Method for Complex Free-form Shapes[J]. ACTA PHOTONICA SINICA, 2017, 46(6): 0612003.
[1] SMER E, TURKER M. Automatic near-photorealistic 3-D modelling and texture mapping for rectilinear buildings[J]. Geocarto International, 2016,215-223.
[2] JOHNSON R M, BRYSON M, DOUILLARD B, et al. Discovering salient regions on 3D photo-textured maps: Crowdsourcing interaction data from multitouch smartphones and tablets[J]. Computer Vision and Image Understanding, 2015, 131: 28-41.
[3] AIGERMAN N, PORANNE R, LIPMAN Y. seamless surface mappings[J]. ACM Transactions on Graphics, 2015, 34(4): 72:1-13.
[4] GENG J. Structured-light 3D surface imaging: a tutorial[J]. Advances in Optics and Photonics, 2011, 3(2): 128-160.
[5] XU J, GAO B T, HAN J H, et al. Realtime 3D profile measurement by using the composite pattern based on the binary stripe pattern[J]. Optics & Laser Technology, 2012, 44(3): 587-593.
[6] CHEN J, WU X J, YU W M, et al. 3D shape modeling using a self-developed hand-held 3D laser scanner and an efficient HT-ICP point cloud registration algorithm[J]. Optics & Laser Technology, 2013, 45: 414-423.
[7] LIU X M, PENG X, YIN Y K, et al. Generation of photorealistic 3D image using optical digitizer[J]. Applied Optics, 2012, 51(9): 1304-1311.
[8] LUDWIG M , BERRIER S , TETZLAFF M, et al. 3D shape and texture morphing using 2D projection and reconstruction[J]. Comput Graph, 2015, 51: 146-156.
[9] ZHENG Shun-yi, ZHOU Yang. High quality reconstrution for small objects based on structure light scanning system with digital camera[J]. Geomatics and Information Science of Wuhan University, 2012,37(5): 529-533.
[11] RODOLA E, ALBARELLI A, CREMERS D, et al. A simple and effective relevance-based point sampling for 3D Shapes[J]. Pattern Recognition Letters, 2015, 59(1): 41-47.
[12] KARASZEWSKI M, SITNIK R, BUNSCH E. On-line, collision-free positioning of a scanner during fully automated three-dimensional measurement of cultural heritage objects[J]. Robotics and Autonomous Systems 2012, 60(9): 1205-1219.
[13] ELFARARGY M, RIZQ A, RASHWAN M. 3D surface reconstruction using polynomial texture mapping[M]. Advances in Visual Computing: Springer Berlin Heidelberg,2013: 353-362.
[14] GOLDLUECKE B, CREMERS D. Superresolution texture maps for multiview reconstruction[C]. IEEE 12th International Conference on Computer Vision, Kyoto, Japan; 2009:1677-1684.
[15] GAL R, WEXLER Y, OFEK E, et al. Seamless montage for texturing models[C]. Comput Graph Forum, 2010: 479-486.
[16] ZHANG Z H, TOWERS C E, TOWERS D P. Time efficient color fringe projection system for 3D shape and color using optimum 3-frequency selection[J]. Optical Express, 2006, 14(14): 6444-6455.
[18] ZHANG Z Y. A flexible new technique for camera calibration [J]. IEEE Trans Pattern Anal Mach Intell 2000, 22(11): 1330-1334.
[19] BERNARDINI F, RUSHMEIER H, MARTIN I M, et al. Building a digital model of Michelangelo's Florentine Pieta[J]. IEEE Comput Graph, 2002, 22(1): 59-67.
[20] BESL P J, MCKAY H D. A method for registration of 3-D shapes[J]. IEEE T Pattern Anal, 1992, 14(2): 239-256.
刘星明, 蔡铁, 李阿蒙, 王辉静, 闫立军. 对复杂自由曲面的纹理重建方法[J]. 光子学报, 2017, 46(6): 0612003. LIU Xing-ming, CAI Tie, LI A-meng, WANG Hui-jing, YAN Li-jun. Texture Reconstruction Method for Complex Free-form Shapes[J]. ACTA PHOTONICA SINICA, 2017, 46(6): 0612003.