Semiautomatic three-dimensional interpretation of line drawings

The human vision system has the ability to interpret two-dimensional images as three-dimensional objects. In this article, we present a program that emulates this ability for the case of images consisting of line-drawings. As a by-product of the approach, we provide an explanation of the Necker cube

In 1977 we proposed a computational model of visual perception which focused our own work and influenced that of a number of others (Barrow and Tenenbaum [4]). A key feature was the simultaneous recovery of retinotopic arrays of characteristics intrinsic to the scene, such as surface color, depth, a

The image input to the picture processing system is a photonegative of a line drawing. The digital picture is processed to isolate, extract, and identify all the lines. Unfortunately the lines are usually much thicker than one picture point and for this reason a thinning algorithm is used. To extrac

As continuous motion must be invoke when interpreting short-range image motion of straight lines, our goal is to study the relation between the continuous motion of a rigid body of straight lines in space and the continuous motion of its projection on a plane. We formalize the notion of rigid motion

Problems of surface orientation recovery from line drawings in a single image obtained under perspective projection are studied. Two constraints, the shared boundary constraint and the orthogonal@ constraint, previolisly used in orthographic projection, are extended to perspective projection. New co