Abstract. We present a system that allows for changing the major cam-era parameters after the acquisition of an image. Using the high dynamic range composition technique and additional range information captured with a small and low-cost time-of-flight camera, our setup enables us to set the main parameters of a virtual camera system and to compute the resulting image. Hence, the aperture size and shape, exposure time, as well as the focus can be changed in a postprocessing step. Since the depth-of-field computation is sensitive to proper range data, it is essen-tial to process the color and depth data in an integrated manner. We use a non-local filtering approach to denoise and upsample the range data. The same technique is used to infer m...
Traditional depth from defocus (DFD) algorithms assume that the camera and the scene are static duri...
An important recent development in the visual information acquisition field is the emergence of low ...
A new method is described for recovering the dis-tance of objects in a scene from images formed by l...
Recovering the depth information derived from dynamic scenes implies real-time range estimation. Thi...
Depth is a useful information in vision to understand the geometrical properties of an environment....
Time-of-Flight matrix sensors currently available allow for the acquisition of range maps at video r...
Current Time-of-Flight matrix sensors allow for the acquisition of range maps, i.e. surface data, at...
3D range sensors, particularly 3D laser range scanners, enjoy a rising popularity and are used nowad...
The purpose of our study is to introduce a new method for depth of field blur simulation used for co...
This paper focuses on errors which are possible to occur in the depth measurements of range cameras....
Time-of-flight range imaging is typically performed with the amplitude modulated continuous wave met...
We describe a novel formulation of the range recovery problem, based on computation of the different...
We describe a novel formulation of the range recovery problem based on computation of the differenti...
The extraction of depth information associated to dynamic scenes is an intriguing topic, because of ...
In a world where digital photography is almost ubiquitous, the size of image capturing devices and t...
Traditional depth from defocus (DFD) algorithms assume that the camera and the scene are static duri...
An important recent development in the visual information acquisition field is the emergence of low ...
A new method is described for recovering the dis-tance of objects in a scene from images formed by l...
Recovering the depth information derived from dynamic scenes implies real-time range estimation. Thi...
Depth is a useful information in vision to understand the geometrical properties of an environment....
Time-of-Flight matrix sensors currently available allow for the acquisition of range maps at video r...
Current Time-of-Flight matrix sensors allow for the acquisition of range maps, i.e. surface data, at...
3D range sensors, particularly 3D laser range scanners, enjoy a rising popularity and are used nowad...
The purpose of our study is to introduce a new method for depth of field blur simulation used for co...
This paper focuses on errors which are possible to occur in the depth measurements of range cameras....
Time-of-flight range imaging is typically performed with the amplitude modulated continuous wave met...
We describe a novel formulation of the range recovery problem, based on computation of the different...
We describe a novel formulation of the range recovery problem based on computation of the differenti...
The extraction of depth information associated to dynamic scenes is an intriguing topic, because of ...
In a world where digital photography is almost ubiquitous, the size of image capturing devices and t...
Traditional depth from defocus (DFD) algorithms assume that the camera and the scene are static duri...
An important recent development in the visual information acquisition field is the emergence of low ...
A new method is described for recovering the dis-tance of objects in a scene from images formed by l...