Add to ORKGA simple and inexpensive approach for extracting the three-dimensional shape of objects is presented. It is based on `weak structured lighting;' it differs from previous structured lighting approaches in that it requires little hardware besides the camera: a light source (a desk-lamp or the sun), a stick and a checkerboard. The object, illuminated by the light source, is placed on a stage composed of a ground plane and a back plane; the camera faces the object. The user moves the stick in front of the light source, casting a moving shadow on the scene. The 3D shape of the object is extracted from the spatial and temporal location of the observed shadow. Experimental results are presented on three different scenes (indoor with a desk lamp an...
This paper presents an approach for creating realistic shadows of objects composited into a novel ba...
In this paper, we describe a method for recovering camera parameters from perspective views of dayli...
In this paper, we describe a method for recovering camera parameters from perspective views of dayli...
A simple and inexpensive approach for extracting the three-dimensional shape of objects is presented...
A simple and inexpensive approach for extracting the three-dimensional shape of objects is presented...
Abstract. A simple and inexpensive approach for extracting the three-dimensional shape of objects is...
A simple and inexpensive approach for extracting the three-dimensional shape of objects is presented...
In this thesis we discuss new results on the Shape From Darkness problem, using the geometry of cast...
We present a new technique for estimating the 3D shape of an object that combines previous ideas fr...
Abstract | In this paper we discuss new results on the Shape From Darkness problem: using the motion...
In computer vision for object recognition or navigation, shadows are a frequent occurrence. However,...
In computer vision for object recognition or navigation, shadows are a frequent occurrence. However,...
In computer vision for object recognition or autonomous navigation, shadows are a frequent occurrenc...
In outdoor images, cast shadows define 3D constraints between the sun, the points casting a shadow, ...
This paper presents an approach for creating realistic shadows of objects composited into a novel ba...
This paper presents an approach for creating realistic shadows of objects composited into a novel ba...
In this paper, we describe a method for recovering camera parameters from perspective views of dayli...
In this paper, we describe a method for recovering camera parameters from perspective views of dayli...
A simple and inexpensive approach for extracting the three-dimensional shape of objects is presented...
A simple and inexpensive approach for extracting the three-dimensional shape of objects is presented...
Abstract. A simple and inexpensive approach for extracting the three-dimensional shape of objects is...
A simple and inexpensive approach for extracting the three-dimensional shape of objects is presented...
In this thesis we discuss new results on the Shape From Darkness problem, using the geometry of cast...
We present a new technique for estimating the 3D shape of an object that combines previous ideas fr...
Abstract | In this paper we discuss new results on the Shape From Darkness problem: using the motion...
In computer vision for object recognition or navigation, shadows are a frequent occurrence. However,...
In computer vision for object recognition or navigation, shadows are a frequent occurrence. However,...
In computer vision for object recognition or autonomous navigation, shadows are a frequent occurrenc...
In outdoor images, cast shadows define 3D constraints between the sun, the points casting a shadow, ...
This paper presents an approach for creating realistic shadows of objects composited into a novel ba...
This paper presents an approach for creating realistic shadows of objects composited into a novel ba...
In this paper, we describe a method for recovering camera parameters from perspective views of dayli...
In this paper, we describe a method for recovering camera parameters from perspective views of dayli...