Skip to search form
Skip to main content
Skip to account menu
Semantic Scholar
Semantic Scholar's Logo
Search 205,704,951 papers from all fields of science
Search
Sign In
Create Free Account
Voreen
Known as:
Voreen - Volume Rendering Engine
Voreen (volume rendering engine) is an easy to use and highly flexible open source volume visualization library and development platform. Through the…
Expand
Wikipedia
Create Alert
Alert
Related topics
Related topics
20 relations
Ambient occlusion
C++
DICOM
Edge detection
Expand
Papers overview
Semantic Scholar uses AI to extract papers important to this topic.
2013
2013
Interactive Comparative Visualization of Multimodal Brain Tumor Segmentation Data
F. Lindemann
,
K. Laukamp
,
A. Jacobs
,
K. Hinrichs
VMV
2013
Corpus ID: 15352252
We present a visualization system for the analysis of multi-modal segmentation data of brain tumors. Our system is designed to…
Expand
2012
2012
From Imprecise User Input to Precise Vessel Segmentations
Stefan Diepenbrock
,
T. Ropinski
VCBM
2012
Corpus ID: 14237161
Vessel segmentation is an important prerequisite for many medical applications. While automatic vessel segmentation is an active…
Expand
2011
2011
Real-time 4D ultrasound visualization with the Voreen framework
R. Bruder
,
P. Jauer
,
F. Ernst
,
L. Richter
,
A. Schweikard
SIGGRAPH '11
2011
Corpus ID: 27071610
Voreen is an open source volume rendering engine which allows interactive visualization of volumetric data sets with high…
Expand
Highly Cited
2010
Highly Cited
2010
Shape-based transfer functions for volume visualization
Jörg-Stefan Praßni
,
T. Ropinski
,
Jörg Mensmann
,
K. Hinrichs
IEEE Pacific Visualization Symposium (PacificVis)
2010
Corpus ID: 6344720
We present a novel classification technique for volume visualization that takes the shape of volumetric features into account…
Expand
2010
2010
An Advanced Volume Raycasting Technique using GPU Stream Processing
Jörg Mensmann
,
T. Ropinski
,
K. Hinrichs
GRAPP
2010
Corpus ID: 13994147
GPU-based raycasting is the state-of-the-art rendering technique for interactive volume visualization. The ray traversal is…
Expand
Highly Cited
2010
Highly Cited
2010
Interactive volumetric lighting simulating scattering and shadowing
T. Ropinski
,
C. Döring
,
C. Rezk-Salama
IEEE Pacific Visualization Symposium (PacificVis)
2010
Corpus ID: 886029
In this paper we present a volumetric lighting model, which simulates scattering as well as shadowing in order to generate high…
Expand
2009
2009
Multimodal Visualization with Interactive Closeups
T. Ropinski
,
I. Viola
,
M. Biermann
,
H. Hauser
,
K. Hinrichs
TPCG
2009
Corpus ID: 18050485
Closeups are used in illustrations to provide detailed views on regions of interest. They are integrated into the rendering of…
Expand
2009
2009
GPU-based Volume Ray-casting supporting Specular Reflection and Refraction
T. Ropinski
,
K. Hinrichs
,
J. Kasten
GRAPP
2009
Corpus ID: 31794009
Nowadays mostly local illumination models are used when rendering volumetric data. When computing global light effects…
Expand
Highly Cited
2008
Highly Cited
2008
Stroke-Based Transfer Function Design
T. Ropinski
,
Jörg-Stefan Praßni
,
Frank Steinicke
,
K. Hinrichs
VG/PBG@SIGGRAPH
2008
Corpus ID: 17123349
In this paper we propose a user interface for the design of 1D transfer functions. The user can select a feature of interest by…
Expand
Highly Cited
2008
Highly Cited
2008
Interactive Volume Rendering with Dynamic Ambient Occlusion and Color Bleeding
T. Ropinski
,
Jennis Meyer-Spradow
,
Stefan Diepenbrock
,
Jörg Mensmann
,
K. Hinrichs
Comput. Graph. Forum
2008
Corpus ID: 7323930
We propose a method for rendering volumetric data sets at interactive frame rates while supporting dynamic ambient occlusion as…
Expand
By clicking accept or continuing to use the site, you agree to the terms outlined in our
Privacy Policy
,
Terms of Service
, and
Dataset License
ACCEPT & CONTINUE