The generation of multiview stereoscopic images of large volume rendered data demands an enormous amount of calculations. We propose a method for hardware accelerated volume rendering of medical data sets to multiview lenticular displays, offering interactive manipulation throughout. The method is based on buffering GPU-accelerated direct volume rendered visualizations of the individual views from their respective focal spot positions, and composing the output signal for the multiview lenticular screen in a second pass. This compositing phase is facilitated by the fact that the view assignment per subpixel is static, and therefore can be precomputed. We decoupled the resolution of the individual views from the resolution of the composited s...
I present a new algorithm to render multiple overlapping multi-channel volumes in real-time. The app...
We have applied three graphics hardware-based approaches to support concurrent visualization of mult...
We have applied three graphics hardware-based approaches to support concurrent visualization of mult...
The generation of multiview stereoscopic images of large volume rendered data demands an enormous am...
The generation of multiview stereoscopic images of large volume rendered data demands an enormous am...
Multi-view lenticular displays offer stereoscopic views, without using additional glasses. In this a...
Multi-view lenticular displays offer stereoscopic views, without using additional glasses. In this a...
Volume rendering describes the processes of creating a 2D projection of a 3D discretely sampled data...
Modern GPUs possess enormous computational capabilities, power that has just become available for ge...
This paper presents multi-frame rate volume rendering, an asynchronous approach to parallel volume r...
Volume rendering is a well known visualization technique for volumetric scalar data. Several publica...
Direct volumetric visualization of medical datasets has important application in areas such as minim...
There is a need to visualize multi-billion voxel data sets. Hardware accelerated rendering currently...
Multiscopic visualization is an emerging display technology that aims to reproduce three dimensional...
Volume rendering is a technique to display 3D volumetric data sets as 2D images. Main computation in...
I present a new algorithm to render multiple overlapping multi-channel volumes in real-time. The app...
We have applied three graphics hardware-based approaches to support concurrent visualization of mult...
We have applied three graphics hardware-based approaches to support concurrent visualization of mult...
The generation of multiview stereoscopic images of large volume rendered data demands an enormous am...
The generation of multiview stereoscopic images of large volume rendered data demands an enormous am...
Multi-view lenticular displays offer stereoscopic views, without using additional glasses. In this a...
Multi-view lenticular displays offer stereoscopic views, without using additional glasses. In this a...
Volume rendering describes the processes of creating a 2D projection of a 3D discretely sampled data...
Modern GPUs possess enormous computational capabilities, power that has just become available for ge...
This paper presents multi-frame rate volume rendering, an asynchronous approach to parallel volume r...
Volume rendering is a well known visualization technique for volumetric scalar data. Several publica...
Direct volumetric visualization of medical datasets has important application in areas such as minim...
There is a need to visualize multi-billion voxel data sets. Hardware accelerated rendering currently...
Multiscopic visualization is an emerging display technology that aims to reproduce three dimensional...
Volume rendering is a technique to display 3D volumetric data sets as 2D images. Main computation in...
I present a new algorithm to render multiple overlapping multi-channel volumes in real-time. The app...
We have applied three graphics hardware-based approaches to support concurrent visualization of mult...
We have applied three graphics hardware-based approaches to support concurrent visualization of mult...