论文:2021,Vol:39,Issue(3):521-528
引用本文:
张琦, 王庆. 基于离心圆共自配极三角形的光场相机标定[J]. 西北工业大学学报
ZHANG Qi, WANG Qing. Common self-polar triangle of separate circles for light field camera calibration[J]. Northwestern polytechnical university
基于离心圆共自配极三角形的光场相机标定
张琦, 王庆
西北工业大学 计算机学院, 陕西 西安 710072
摘要:
光场成像存在空间和角度分辨率折衷问题,导致从光场中提取角点及直线特征的精度不高,影响光场相机标定精度,为此提出了一种基于离心圆共自配极三角形的光场相机标定方法。分析了离心圆极点-极线关系,推导了离心圆共自配极三角形的性质。根据光场相机多投影中心模型对平面及二次曲面的映射,设计了一种离心圆标定板,重建了共自配极三角形并计算平面单应,实现了基于离心圆共自配极三角形的光场相机标定的线性初始化和非线性优化方法。仿真和真实数据上的实验结果表明该方法可精确标定光场相机,且稳定便捷。
关键词:    光场相机标定    自配极三角形    离心圆    离心圆共自配极三角形    算法   
Common self-polar triangle of separate circles for light field camera calibration
ZHANG Qi, WANG Qing
School of Computer Science, Northwestern Polytechnical University, Xi'an 710072, China
Abstract:
Due to the trade-off between spatial resolution and angular resolution of the light field, it is difficult to extract high precision corner points and line features from light fields for calibration. A novel calibration pattern of separate circles is designed, and a light field camera calibration method based on common self-polar triangle with respect to separate circles is proposed in this paper. First, we explore the uniquity and reconstruction of common self-polar triangle with respect to sperate circles. Then, based on projections of the multi-projection-center model on the plane and conic, the common self-polar triangle on the sub-aperture image is reconstructed and used to estimate planar homography. Finally, a light field camera calibration algorithm is then proposed, including linear initialization and non-linear optimization. Experimental results on both synthetic and real data have verified the effectiveness and robustness of the method and algorithm proposed.
Key words:    light field camera calibration    self-polar triangle    separate circles    common self-polar triangle of separate circles    algorithm   
收稿日期: 2020-10-22     修回日期:
DOI: 10.1051/jnwpu/20213930521
基金项目: 国家自然科学基金(61531014,62031023)与西北工业大学博士论文创新基金(CX201919)资助
通讯作者: 王庆(1969-),西北工业大学教授、博士生导师,主要从事图像处理、计算机视觉及计算摄像学研究。e-mail:qwang@nwpu.edu.cn     Email:qwang@nwpu.edu.cn
作者简介: 张琦(1991-),西北工业大学博士研究生,主要从事计算机视觉和计算摄像学研究。
相关功能
PDF(1837KB) Free
打印本文
把本文推荐给朋友
作者相关文章
张琦  在本刊中的所有文章
王庆  在本刊中的所有文章
参考文献:
[1] 索津莉, 刘烨斌, 季向阳, 等. 计算摄像学:核心、方法与应用[J]. 自动化学报, 2015, 41(4):669-685 SUO Jinli, LIU Yebin, JI Xiangyang, et al. Computational photography:keys, methods and applications[J]. Acta Automatica Sinica, 2015, 41(4):669-685(in Chinese)
[2] NG R. Digital light field photography[D]. San Francisco:Stanford University, 2006
[3] ZHANG Q, WANG Q, LI H, YU J. Ray-space epipolar geometry for light field cameras[EB/OL]. (2020-09-22)[2020-10-22]. https://doi.org/10.1109/TPAMI.2020.3025949
[4] NOUSIAS S, LOURAKIS M, BERGELES C. Large-scale, metric structure from motion for unordered light fields[C]//IEEE Conference on Computer Vision and Pattern Recognition, Long Beach, United States, 2019
[5] BIRKLBAUER C, BIMBER O. Panorama light-field imaging[J]. Computer Graphics Forum, 2014, 33(2):43-52
[6] ZELLER N, QUINT F, STILLA U. From the calibration of a light-field camera to direct plenoptic odometry[J]. IEEE Journal of Selected Topics in Signal Processing, 2017, 11(7):1004-1019
[7] DANSEREAU D G, PIZARRO O, WILLIAMS S B. Decoding, calibration and rectification for lenselet-based plenoptic cameras[C]//IEEE Conference on Computer Vision and Pattern Recognition, Portland, United States, 2013:1027-1034
[8] ZHANG Q, ZHANG C, LING J, WANG Q, Yu J. A generic multi-projection-center model and calibration method for light field cameras[J]. IEEE Trans on Pattern Analysis and Machine Intelligence, 2019, 41(11):2539-2552
[9] ZHANG Q, LING J, WANG Q, YU J. Ray-space projection model for light field camera[C]//IEEE Conference on Computer Vision and Pattern Recognition, Long Beach, United States, 2019:10121-10129
[10] BOK Y, JEON H G, KWEON I S. Geometric calibration of micro-lens-based light field cameras using line features[J]. IEEE Trans on Pattern Analysis and Machine Intelligence, 2017, 39(2):287-300
[11] ZHANG Q, WANG Q. Common self-polar triangle of concentric conics for light field camera calibration[C]//Asian Conference on Computer Vision, Perth, Australia, 2018:18-33
[12] ZHANG Q, WANG X, WANG Q. Light field planar homography and its application[C]//Optoelectronic Imaging and Multimedia Technology VI, Hangzhou, China, 2019
[13] HARTLEY R, ZISSERMAN A. Multiple view geometry in computer vision[M]. Cambridge:Cambridge University Press, 2003
[14] HUANG H, ZHANG H, CHEUNG YM. The common self-polar triangle of concentric circles and its application to camera calibration[C]//IEEE Conference on Computer Vision and Pattern Recognition, Boston, United States, 2015:4065-4072
[15] LEVOY M, HANRAHAN P. Light field rendering[C]//Special Interest Group for Computer Graphics, New Orleans, United States, 1996:31-42
[16] FAUGERAS O. Three-dimensional computer vision:a geometric viewpoint[M]. United States, MIT Press, 1993
[17] MADSEN K, NIELSEN HB, TINGLEFF O. Methods for non-linear least squares problems[M]. Denmark, Technical University of Denmark, 2004
[18] LYTRO. Lytro redefines photography with light field cameras[EB/OL]. (2011-06-22)[2020-10-22]. http://www.lytro.com
[19] CANNY J. A computational approach to edge detection[J]. IEEE Trans on Pattern Analysis and Machine Intelligence, 1986(6):679-698

版权所有 © 2014《西北工业大学学报》编辑部   地址:陕西省西安市碑林区友谊西路127号西北工业大学期刊编辑部 

邮编:710072  电话:029-88495455  Email:xuebao@nwpu.edu.cn

本系统由北京仁和汇智信息技术有限公司设计开发   技术支持:info@rhhz.net