Abstract.
The perspective 4 point (P4P) problem - also called the three-dimensional resection problem - is solved by means of a new algorithm: At first the unknown Cartesian coordinates of the perspective center are computed by means of Möbius barycentric coordinates. Secondly these coordinates are represented in terms of observables, namely space angles in the five-dimensional simplex generated by the unknown point and the four known points. Substitution of Möbius barycentric coordinates leads to the unknown Cartesian coordinates (2.8)–(2.10) of Box 2.2. The unknown distances within the five-dimensional simplex are determined by solving the Grunert equations, namely by forward reduction to one algebraic equation (3.8) of order four and backward linear substitution. Tables 1.–4. contain a numerical example. Finally we give a reference to the solution of the 3 point (P3P) problem, the two-dimensional resection problem, namely to the Ansermet barycentric coordinates initiated by C.F. Gauß (1842), A. Schreiber (1908) and A.␣Ansermet (1910).
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Received: 05 March 1996; Accepted: 15 October 1996
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Grafarend, E., Shan, J. Closed-form solution of P4P or the three-dimensional resection problem in terms of Möbius barycentric coordinates. Journal of Geodesy 71, 217–231 (1997). https://doi.org/10.1007/s001900050089
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DOI: https://doi.org/10.1007/s001900050089