Title :
Direct computation of qualitative 3-D shape and motion invariants
Author :
Weinshall, Daphna
Author_Institution :
Center for Biol. Inf. Process., MIT, Cambridge, MA, USA
fDate :
12/1/1991 12:00:00 AM
Abstract :
Structure from motion often refers to the computation of three-dimensional structure from a matched sequence of images. However, a depth map of a surface is difficult to compute and may not be a good representation for storage and recognition. Given matched images it is shown that the sign of the normal curvature in a given direction at a given point in the image can be computed from a simple difference of slopes of line segments in one image. Using this result, local surface patches can be classified as convex, concave, cylindrical, hyperbolic (saddle point), or planar. At the same time, the translational component of the optical flow, from which the focus of expansion can be computed, is obtained
Keywords :
pattern recognition; picture processing; 3D motion invariants; 3D shape invariants; concave; convex; cylindrical; depth map; focus of expansion; hyperbolic; local surface patches; matched images; optical flow; pattern recognition; picture processing; planar; saddle point; structure from motion; Focusing; Image motion analysis; Image segmentation; Motion analysis; Navigation; Optical computing; Optical devices; Optical recording; Optical sensors; Shape;
Journal_Title :
Pattern Analysis and Machine Intelligence, IEEE Transactions on
