Title :
Estimation of surface parameters using orthogonal distance criterion
Author :
Hu, G. ; Shrikhande, N.
Author_Institution :
Central Michigan Univ., Mount Pleasant, MI, USA
Abstract :
Fitting surfaces to 3-D data is one of the basic methods for surface description for 3-D vision. Most techniques of surface fitting proposed in the literature are “least-squares”-based that rarely produce satisfactory results if a certain level of noise is present in the data or if the data points are locally sampled from a small area. We propose a new approach that minimizes the mean squared approximate orthogonal distances with linearization using the Newton iteration method. This approach usually yields a good fit and the algorithm is reliable and efficient for real applications. Results are reported for one of the real range images that we have experimented. The results demonstrate that the approximate orthogonal distance performs better than the least squares based methods
Keywords :
Newton method; approximation theory; computer vision; image segmentation; linearisation techniques; parameter estimation; statistical analysis; surface fitting; 3-D data; 3-D vision; Newton iteration method; algorithm; least squares based methods; linearization; locally sampled data points; mean squared approximate orthogonal distances; noise level; orthogonal distance criterion; orthogonal distance regression; range image segmentation; real range images; surface description; surface fitting; surface parameters estimation;
Conference_Titel :
Image Processing and its Applications, 1995., Fifth International Conference on
Conference_Location :
Edinburgh
Print_ISBN :
0-85296-642-3
DOI :
10.1049/cp:19950678
