Closed-form solutions to image flow equations for 3D structure and motion
作者:Allen M. Waxman, Behrooz Kamgar-Parsi, Muralidhara Subbarao
摘要
A major source of three-dimensional (3D) information about objects in the world is available to the observer in the form of time-varying imagery. Relative motion between textured objects and the observer generates a time-varying optic array at the image, from which image motion of contours, edge fragments, and feature points can be extracted. These dynamic features serve to sample the underlying “image flow” field. New, closed-form solutions are given for the structure and motion of planar and curved surface patches from monocular image flow and its derivatives through second order. Both planar and curved surface solutions require at most, the solution of a cubic equation. The analytic solution for curved surface patches combines the transformation of Longuet-Higgins and Prazdny [25] with the planar surface solution of Subbarao and Waxman [43]. New insights regarding uniqueness of solutions also emerge. Thus, the “structure-motion coincidence” of Waxman and Ullman [54] is interpreted as the “duality of tangent plane solutions.” The multiplicity of transformation angles (up to three) is related to the sign of the Gaussian curvature of the surface patch. Ovoid patches (i.e., bowls) are shown to possess a unique transform angle, though they are subject to the local structure-motion coincidence. Thus, ovoid patches almost always yield a unique 3D interpretation. In general, ambiguous solutions can be resolved by requiring continuity of the solution over time.
论文关键词:Feature Point, Curve Surface, Planar Surface, Gaussian Curvature, Tangent Plane
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论文官网地址:https://doi.org/10.1007/BF00127823