论文信息 - Relative orientation revisited

Relative orientation revisited

Relative orientation is the recovery of the position and orientation of one imaging system relative to another from correspondences among five or more ray pairs. It is one of four core problems in photogrammetry and is of central importance in binocular stereo as well as in long-range motion vision. While five ray correspondences are sufficient to yield a finite number of solutions, more than five correspondences are used in practice to ensure an accurate solution with least-squares methods. Most iterative schemes for minimizing the sum of the squares of weighted errors require a good guess as a starting value. The author has previously published a method that results in the best solution without requiring an initial guess [ J. Opt. Soc. Am. A4, 629 ( 1987)] An even simpler method is presented here that utilizes the representation of rotations by unit quaternions.

Berthold K. P. Horn

[1] G. Hauck. Neue Constructionen der Perspective und Photogrammetrie. (Theorie der trilinearen Verwandtschaft ebener Systeme, I. Artikel.) , 1883 .

[2] S. Finsterwalder. Die geometrischen Grundlagen der Photogrammetrie. , 1897 .

[3] J. Krames. Zur Ermittlung eines Objektes aus zwei Perspektiven. (Ein Beitrag zur Theorie der “gefährlichen Örter”.) , 1941 .

[4] Granino A. Korn,et al. Mathematical handbook for scientists and engineers , 1961 .

[5] Berthold K. P. Horn,et al. Closed-form solution of absolute orientation using unit quaternions , 1987 .

[6] A. Morgan,et al. A homotopy for solving general polynomial systems that respects m-homogeneous structures , 1987 .

[7] A. Morgan. Solving Polynomial Systems Using Continuation for Engineering and Scientific Problems , 1987 .

[8] A. Morgan,et al. Errata: Computing all solutions to polynomial systems using homotopy continuation , 1987 .

[9] A. Morgan,et al. Coefficient-parameter polynomial continuation , 1989 .

[10] Thomas S. Huang,et al. Algebraic methods in 3‐d motion estimation from two‐view point correspondences , 1989, Int. J. Imaging Syst. Technol..

[11] A. Morgan,et al. Numerical Continuation Methods for Solving Polynomial Systems Arising in Kinematics , 1990 .

[12] J. Michael McCarthy,et al. Introduction to theoretical kinematics , 1990 .

[13] Bernard Roth,et al. Kinematic analysis of the 6R manipulator of general geometry , 1991 .