This paper addresses the problem of reconstructing the surface shape of transparent objects. The difficulty of this problem originates from the viewpoint dependent appearance of a transparent object, which quickly makes reconstruction methods tailored for diffuse surfaces fail disgracefully. In this paper, we introduce a fixed viewpoint approach to dense surface reconstruction of transparent objects based on refraction of light. We present a simple setup that allows us to alter the incident light paths before light rays enter the object by immersing the object partially in a liquid, and develop a method for recovering the object surface through reconstructing and triangulating such incident light paths. Our proposed approach does not need t...
This paper introduces a new image-based approach to capturing and modeling highly specular, transpar...
A novel approach to 3D scanning holds promise for imaging see-through objects, such as those made fr...
In conventional imaging, the geometry of image formation is described by the pinhole camera model, a...
This paper addresses the problem of reconstructing the surface shape of transparent objects. The dif...
Acquiring transparent, refractive objects is challenging as these kinds of objects can only be obser...
We address the following problem in refractive shape estima-tion: given a single light-ray correspon...
Transparent object detection and reconstruction are significant, due to their practical applications...
In recent years there has been significant progress in increasing the scope, accuracy and flexibilit...
We address the following problem in refractive shape estimation: given a single light-ray correspond...
We investigate the feasibility of reconstructing an arbitrarily-shaped specular scene (refractive or...
3D reconstruction of transparent refractive objects like a plastic bottle is challenging: they lack ...
his paper presents a method for recovering shape and normal of a transparent object from a single vi...
Abstract—In this paper we propose a novel approach to detect and reconstruct transparent objects. Th...
We investigate the feasibility of reconstructing an arbitrarily-shaped specular scene (refractive or...
This paper addresses the problem of reconstructing non-overlapping transparent and opaque surfaces f...
This paper introduces a new image-based approach to capturing and modeling highly specular, transpar...
A novel approach to 3D scanning holds promise for imaging see-through objects, such as those made fr...
In conventional imaging, the geometry of image formation is described by the pinhole camera model, a...
This paper addresses the problem of reconstructing the surface shape of transparent objects. The dif...
Acquiring transparent, refractive objects is challenging as these kinds of objects can only be obser...
We address the following problem in refractive shape estima-tion: given a single light-ray correspon...
Transparent object detection and reconstruction are significant, due to their practical applications...
In recent years there has been significant progress in increasing the scope, accuracy and flexibilit...
We address the following problem in refractive shape estimation: given a single light-ray correspond...
We investigate the feasibility of reconstructing an arbitrarily-shaped specular scene (refractive or...
3D reconstruction of transparent refractive objects like a plastic bottle is challenging: they lack ...
his paper presents a method for recovering shape and normal of a transparent object from a single vi...
Abstract—In this paper we propose a novel approach to detect and reconstruct transparent objects. Th...
We investigate the feasibility of reconstructing an arbitrarily-shaped specular scene (refractive or...
This paper addresses the problem of reconstructing non-overlapping transparent and opaque surfaces f...
This paper introduces a new image-based approach to capturing and modeling highly specular, transpar...
A novel approach to 3D scanning holds promise for imaging see-through objects, such as those made fr...
In conventional imaging, the geometry of image formation is described by the pinhole camera model, a...