Title :
Linear N-point camera pose determination
Author :
Quan, Long ; Lan, Zhongdan
Author_Institution :
CNRS, INRIA, Montbonnot, France
fDate :
8/1/1999 12:00:00 AM
Abstract :
The determination of camera position and orientation from known correspondences of 3D reference points and their images is known as pose estimation in computer vision and space resection in photogrammetry. It is well-known that from three corresponding points there are at most four algebraic solutions. Less appears to be known about the cases of four and five corresponding points. We propose a family of linear methods that yield a unique solution to 4- and 5-point pose determination for generic reference points. We first review the 3-point algebraic method. Then we present our two-step, 4-point and one-step, 5-point linear algorithms. The 5-point method can also be extended to handle more than five points. Finally, we demonstrate our methods on both simulated and real images. We show that they do not degenerate for coplanar configurations and even outperform the special linear algorithm for coplanar configurations in practice
Keywords :
computer vision; polynomials; singular value decomposition; 3-point algebraic method; 3D reference points; camera orientation; camera position; coplanar configurations; linear N-point camera pose determination; one-step 5-point linear algorithm; photogrammetry; pose estimation; space resection; two-step 4-point algorithm; Calibration; Cameras; Closed-form solution; Computer vision; Filtering; Iterative algorithms; Iterative methods; Numerical stability; Position measurement; Transmission line matrix methods;
Journal_Title :
Pattern Analysis and Machine Intelligence, IEEE Transactions on
