Add to ORKGHuman beings perceive 3D shapes veridically, but the underlying mechanisms remain unknown. The problem of producing veridical shape percepts is computationally difficult because the 3D shapes have to be recovered from 2D retinal images. This paper describes a new model, based on a regularization approach, that does this very well. It uses a new simplicity principle composed of four shape constraints: viz., symmetry, planarity, maximum compactness and minimum surface. Maximum compactness and minimum surface have never been used before. The model was tested with random symmetrical polyhedra. It recovered their 3D shapes from a singl...
The appearance of a three-dimensional object (that is, the pattern formed by its projection onto the...
When we look at a perfectly mirrored object, such as a polished kettle, we generally have a remarkab...
Estimating the 3D shape of objects in our environment is one of the most fundamental problems in vis...
AbstractThis paper reviews recent progress towards understanding 3D shape perception made possible b...
In this study, two computational models were formulated to simulate human monocular and binocular 3D...
Recovering veridical 3D shape of an object from a single 2D image is an ill-posed problem. a priori ...
Binocular shape reconstruction is an inverse problem of inferring a 3-D similarity structure of an o...
In natural conditions the human visual system can estimate the 3D shape of specular objects even fro...
3D object reconstruction from single 2D images has many applications in multimedia. This paper propo...
In natural conditions the human visual system can estimate the 3D shape of specular objects even fro...
The human visual system uses priors to convert an ill-posed inverse problem of 3D shape recovery int...
AbstractThis paper reviews recent progress towards understanding 3D shape perception made possible b...
Many materials including water, plastic and metal have specular surface characteristics. Specular re...
We present a new algorithm for 3D shape reconstruction from stereo image pairs that uses mirror symm...
When we look at a perfectly mirrored object, such as a polished kettle, we generally have a remarkab...
The appearance of a three-dimensional object (that is, the pattern formed by its projection onto the...
When we look at a perfectly mirrored object, such as a polished kettle, we generally have a remarkab...
Estimating the 3D shape of objects in our environment is one of the most fundamental problems in vis...
AbstractThis paper reviews recent progress towards understanding 3D shape perception made possible b...
In this study, two computational models were formulated to simulate human monocular and binocular 3D...
Recovering veridical 3D shape of an object from a single 2D image is an ill-posed problem. a priori ...
Binocular shape reconstruction is an inverse problem of inferring a 3-D similarity structure of an o...
In natural conditions the human visual system can estimate the 3D shape of specular objects even fro...
3D object reconstruction from single 2D images has many applications in multimedia. This paper propo...
In natural conditions the human visual system can estimate the 3D shape of specular objects even fro...
The human visual system uses priors to convert an ill-posed inverse problem of 3D shape recovery int...
AbstractThis paper reviews recent progress towards understanding 3D shape perception made possible b...
Many materials including water, plastic and metal have specular surface characteristics. Specular re...
We present a new algorithm for 3D shape reconstruction from stereo image pairs that uses mirror symm...
When we look at a perfectly mirrored object, such as a polished kettle, we generally have a remarkab...
The appearance of a three-dimensional object (that is, the pattern formed by its projection onto the...
When we look at a perfectly mirrored object, such as a polished kettle, we generally have a remarkab...
Estimating the 3D shape of objects in our environment is one of the most fundamental problems in vis...