Title :
From accurate range imaging sensor calibration to accurate model-based 3D object localization
Author :
Champleboux, Guillaume ; Lavallée, Stéphane ; Szeliski, Richard ; Brunie, Lionel
Author_Institution :
TIMB-TIM3-IMAG, La Tronche, France
Abstract :
The registration of multiple 3D data sets obtained with a laser range finder is examined. A sensor calibration technique based on the conjunction of a mathematical camera model, the N-planes B-spline (NPBS), with an accurate mechanical calibration setup, is proposed. An algorithm for recovering the rigid transformation (rotation and translation) between the two sets of 3D coordinates obtained by the calibrated imaging range sensor is developed. Its input is sets of points lying on the surface of the object. This input is converted into an octree-spline that allows point-to-surface distances to be computed quickly. A robust nonlinear least-squares minimization technique then finds the optimal pose by minimizing the sum of square distances between the two sets of 3D coordinates. The algorithm has been applied to matching human faces with highly accurate results
Keywords :
computational geometry; computer vision; face recognition; laser ranging; least squares approximations; splines (mathematics); 3D coordinates; N-planes B-spline; human faces; image registration; laser range finder; mathematical camera model; mechanical calibration setup; model-based 3D object localization; multiple 3D data sets; octree-spline; point-to-surface distances; range imaging sensor calibration; rigid transformation; robust nonlinear least-squares minimization; rotation; sum of square distances; translation; Calibration; Cameras; Face; Humans; Image sensors; Laser modes; Mathematical model; Mechanical sensors; Robustness; Spline;
Conference_Titel :
Computer Vision and Pattern Recognition, 1992. Proceedings CVPR '92., 1992 IEEE Computer Society Conference on
Conference_Location :
Champaign, IL
Print_ISBN :
0-8186-2855-3
DOI :
10.1109/CVPR.1992.223223
