Wahba's problem


In applied mathematics, Wahba's problem, first posed by Grace Wahba in 1965, seeks to find a rotation matrix between two coordinate systems from a set of vector observations. Solutions to Wahba's problem are often used in satellite attitude determination utilising sensors such as magnetometers and multi-antenna GPS receivers. The cost function that Wahba's problem seeks to minimise is as follows:
where is the k-th 3-vector measurement in the reference frame, is the corresponding k-th 3-vector measurement in the body frame and is a 3 by 3 rotation matrix between the coordinate frames.
is an optional set of weights for each observation.
A number of solutions to the problem have appeared in literature, notably Davenport's q-method, QUEST and singular value decomposition-based methods. This is an alternative formulation of the Orthogonal Procrustes problem.
Several methods for solving Wahba's problem are discussed by Markley and Mortari.

Solution by Singular Value Decomposition

One solution can be found using a singular value decomposition as reported by
1. Obtain a matrix as follows:
2. Find the singular value decomposition of
3. The rotation matrix is simply:
where