Objects with mirroring optical characteristics are left out of the scope of most 3D scanning methods. We present here a new automatic acquisition approach, shape-from-distortion, that focuses on that category of objects, requires only a still camera and a color monitor, and produces range scans (plus a normal and a reflectance map) of the target. Our technique consists of two steps: first, an improved environment matte is captured for the mirroring object, using the interference of patterns with different frequencies to obtain sub-pixel accuracy. Then, the matte is converted into a normal and a depth map by exploiting the self-coherence of a surface when integrating the normal map along different paths. The results show very high accuracy, ...
Optical 3D measurement of objects is meaningful in numerous industrial applications. In various case...
International audienceSpecular and mirror-like surfaces are difficult to reconstruct by the fact tha...
The process of generating a three-dimensional (3D) computer model of a real-world object or scene fr...
Objects with mirroring optical characteristics are left out of the scope of most 3D scanning methods...
Objects with mirroring optical characteristics are left out of the scope of most 3D scanning methods...
Objects with mirroring optical characteristics are left out of the scope of most 3D scanning methods...
Objects with mirroring surfaces are left out of the scope of most recent 3D scanning methods. We dev...
We present a new technique to recover the shape of an unknown smooth specular surface from a single ...
Many materials including water, plastic and metal have specular surface characteristics. Specular re...
We present an algorithm and the associated single-view capture methodology to acquire the detailed 3...
We analyze the problem of recovering the shape of a mirror surface. We generalize the results of [1]...
We explore the geometry linking the shape of a curved mirror surface to the distortions it produces ...
When we look at a perfectly mirrored object, such as a polished kettle, we generally have a remarkab...
Many materials including water, plastic and metal have specular surface characteristics. Specular re...
This paper addresses the problem of 3D surface scan refinement, which is desirable due to noise, out...
Optical 3D measurement of objects is meaningful in numerous industrial applications. In various case...
International audienceSpecular and mirror-like surfaces are difficult to reconstruct by the fact tha...
The process of generating a three-dimensional (3D) computer model of a real-world object or scene fr...
Objects with mirroring optical characteristics are left out of the scope of most 3D scanning methods...
Objects with mirroring optical characteristics are left out of the scope of most 3D scanning methods...
Objects with mirroring optical characteristics are left out of the scope of most 3D scanning methods...
Objects with mirroring surfaces are left out of the scope of most recent 3D scanning methods. We dev...
We present a new technique to recover the shape of an unknown smooth specular surface from a single ...
Many materials including water, plastic and metal have specular surface characteristics. Specular re...
We present an algorithm and the associated single-view capture methodology to acquire the detailed 3...
We analyze the problem of recovering the shape of a mirror surface. We generalize the results of [1]...
We explore the geometry linking the shape of a curved mirror surface to the distortions it produces ...
When we look at a perfectly mirrored object, such as a polished kettle, we generally have a remarkab...
Many materials including water, plastic and metal have specular surface characteristics. Specular re...
This paper addresses the problem of 3D surface scan refinement, which is desirable due to noise, out...
Optical 3D measurement of objects is meaningful in numerous industrial applications. In various case...
International audienceSpecular and mirror-like surfaces are difficult to reconstruct by the fact tha...
The process of generating a three-dimensional (3D) computer model of a real-world object or scene fr...