Abstract. We present an image-based rendering technique to accelerate render-ing of surfaces from volume data. We cache the fully volume rendered image (called keyview) and use it to generate novel views without ray-casting every pixel. This is achieved by first constructing an underlying surface model of the volume and then texture mapping the keyview onto the geometry. When the novel view moves slightly away from the keyview, most of the original visible regions in the keyview are still visible in the novel view. Therefore, we only need to cast rays for pixels in the newly visible regions, which usually occupy only a small portion of the whole image, resulting in a substantial speedup. We have applied our technique to a virtual colonoscop...
An approach is described for approximating 3D volumetric rendering of medical data for use in surgic...
In this paper we present a fast visualization technique for volumetric data, which is based on a rec...
Abstract—We present an efficient stereoscopic rendering algorithm supporting interactive navigation ...
We present an image-based rendering technique to accelerate surfaces rendering from volume data. We ...
In this paper a new direct volume-rendering method is presented for fast display of iso-surfaces. In...
We present an interactive navigation system for virtual colonoscopy, which is based solely on high p...
The application of volume rendering techniques to the display of surfaces from sampled scalar functi...
Abstract V /" The application of volume rendering techniques to the display of surfaces from sa...
fast display method for volumetric data sets is presented, which involves a slice- - f based method ...
Volume rendering is a technique for simultaneous visualization of surfaces and inner structures of o...
In order to make direct volume rendering practicable convenient visualization options and data analy...
Volume rendering is a technique for visualizing 3D images from 2D sampled data. For 2D medical image...
An approach is described for approximating 3D volumetric render-ing of medical data for use in surgi...
Modern GPUs possess enormous computational capabilities, power that has just become available for ge...
Volume rendering is a widespread method for displaying graphical models in fields such as medical vi...
An approach is described for approximating 3D volumetric rendering of medical data for use in surgic...
In this paper we present a fast visualization technique for volumetric data, which is based on a rec...
Abstract—We present an efficient stereoscopic rendering algorithm supporting interactive navigation ...
We present an image-based rendering technique to accelerate surfaces rendering from volume data. We ...
In this paper a new direct volume-rendering method is presented for fast display of iso-surfaces. In...
We present an interactive navigation system for virtual colonoscopy, which is based solely on high p...
The application of volume rendering techniques to the display of surfaces from sampled scalar functi...
Abstract V /" The application of volume rendering techniques to the display of surfaces from sa...
fast display method for volumetric data sets is presented, which involves a slice- - f based method ...
Volume rendering is a technique for simultaneous visualization of surfaces and inner structures of o...
In order to make direct volume rendering practicable convenient visualization options and data analy...
Volume rendering is a technique for visualizing 3D images from 2D sampled data. For 2D medical image...
An approach is described for approximating 3D volumetric render-ing of medical data for use in surgi...
Modern GPUs possess enormous computational capabilities, power that has just become available for ge...
Volume rendering is a widespread method for displaying graphical models in fields such as medical vi...
An approach is described for approximating 3D volumetric rendering of medical data for use in surgic...
In this paper we present a fast visualization technique for volumetric data, which is based on a rec...
Abstract—We present an efficient stereoscopic rendering algorithm supporting interactive navigation ...