面向高光金属表面的激光三维检测算法
张磊, 程筱胜, 崔海华, 戴宁, 裴旭. 面向高光金属表面的激光三维检测算法[J]. 光电技术应用, 2013, 28(6): 44.
ZHANG Lei, CHENG Xiao-sheng, CUI Hai-hua, DAI Ning, PEI Xu. Three-dimensional Laser Detection Algorithm for Highlight on Metal Surface[J]. Electro-Optic Technology Application, 2013, 28(6): 44.
[1] 曾祥军,霍金城,吴庆阳.线结构光三维测量系统扫描方向的标定[J]. 中国激光,2012,39(1): 0108002.
[2] 解则晓,李绪勇,辛少辉,等.水下线结构光自动扫描三维测量技术[J]. 中国激光,2010,37(8): 2010-2014.
[3] 刘丽辉,赵启大,董孝义,等.双折射光纤环形镜滤波器特性研究[J]. 光学学报,2004,24(9): 1185-1188.
[4] 姚莉,马利庄,白极,等.基于多光源与补色相结合的方法去除金属表面高光[J]. 中国图形图像学报,2006,11:32-36.
[5] Shafer S A. Using color to separate reflection components[J]. Color Research and Application,1985,10(4):210-218.
[6] Nayar S K, Fang X S, et al. Separation of reflection components using color and polarization[J]. International Journal of Computer Vision,1996,21(3):163-186.
[7] H Nakai, D Iwai, K Sato. 3D shape measurement using fixed camera and handheld laser scanner[C]//SICE Annual Conference, 2008: 1536-1539.
[8] R Y Tsai. 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, 3(4): 323-344.
[9] 徐德,赵晓光,涂志国,等.基于结构光立体视觉的焊缝测量[J]. 焊接学报,2004,25(5): 45-52.
[10] Eng H L, Ma K K. Noise adaptive soft-switching median filter[J]. IEEE Transactions on Image Processing, 2001, 10(2): 242-251.
[11] 李宏,张冬生,林义刚,等. 基于OTSU理论的灰度图像分割算法研究和改进[J]. 科学技术与工程,2010,10(22): 5437-5440.
[12] Golub G H, Van Loan C F. An analysis of the total least squares problem[J]. SIAM Number Anal, 17(6): 883-893.
[13] R Kurazume, Y Tobata, Y Iwashita, et al. 3D laser measurement system for large scale architectures using multiple mobile robots[C]// International Conference on 3D Digital Imaging and Mobdeling, 2007: 91-98.
[14] 张旭苹,汪家其,张益昕,等.大尺度三维几何尺寸立体视觉测量系统实现[J]. 光学学报, 2012,32(3): 0315002.
张磊, 程筱胜, 崔海华, 戴宁, 裴旭. 面向高光金属表面的激光三维检测算法[J]. 光电技术应用, 2013, 28(6): 44. ZHANG Lei, CHENG Xiao-sheng, CUI Hai-hua, DAI Ning, PEI Xu. Three-dimensional Laser Detection Algorithm for Highlight on Metal Surface[J]. Electro-Optic Technology Application, 2013, 28(6): 44.