We propose new clipping methods that are capable of using complex geometries for volume clipping. The clipping tests exploit per-fragment operations on the graphics hardware to achieve high frame rates. In combination with texture-based volume rendering, these techniques enable the user to interactively select and explore regions of the data set. We present depth-based clipping techniques that analyze the depth structure of the boundary representation of the clip geometry to decide which parts of the volume have to be clipped. In another approach, a voxelized clip object is used to identify the clipped regions
The analysis of volumetric datasets is the main concern in many areas ranging from geophysics to bio...
Extraction of volume corresponding to a recognised form feature is an important step in feature extr...
Many applications require simultaneous display of multiple datasets, representing multiple samples, ...
Volume clipping is a useful aid for exploring volumetric datasets. To maximize the effectiveness of ...
Volume clipping is a useful aid for exploring volumetric datasets. To maximize the effectiveness of ...
We have exploited clipping in combination with multiresolution rendering to visualize large-scale th...
For volume rendering of regular grids the display of view-plane aligned slices has proven to yield b...
Several clipping algorithms are in wide use. These are separated into broad classes. They include su...
Clipping is a fast, common technique for resolving occlusions. It only requires simple interaction, ...
Volume clipping techniques can display inner structures and avoid difficulties in specifying an appr...
Abstract — The image segmentation techniques for medical image play important roles in computer-aide...
We present a technique for efficient management of large textures and its real-time application to g...
Clipping is the process of determining how much of a given line segment lies within the boundaries o...
The concept of clipping planes is well known in computer graphics and can be used to create cut-away...
Medical illustrations have been used for a long time for teaching and communicating information for ...
The analysis of volumetric datasets is the main concern in many areas ranging from geophysics to bio...
Extraction of volume corresponding to a recognised form feature is an important step in feature extr...
Many applications require simultaneous display of multiple datasets, representing multiple samples, ...
Volume clipping is a useful aid for exploring volumetric datasets. To maximize the effectiveness of ...
Volume clipping is a useful aid for exploring volumetric datasets. To maximize the effectiveness of ...
We have exploited clipping in combination with multiresolution rendering to visualize large-scale th...
For volume rendering of regular grids the display of view-plane aligned slices has proven to yield b...
Several clipping algorithms are in wide use. These are separated into broad classes. They include su...
Clipping is a fast, common technique for resolving occlusions. It only requires simple interaction, ...
Volume clipping techniques can display inner structures and avoid difficulties in specifying an appr...
Abstract — The image segmentation techniques for medical image play important roles in computer-aide...
We present a technique for efficient management of large textures and its real-time application to g...
Clipping is the process of determining how much of a given line segment lies within the boundaries o...
The concept of clipping planes is well known in computer graphics and can be used to create cut-away...
Medical illustrations have been used for a long time for teaching and communicating information for ...
The analysis of volumetric datasets is the main concern in many areas ranging from geophysics to bio...
Extraction of volume corresponding to a recognised form feature is an important step in feature extr...
Many applications require simultaneous display of multiple datasets, representing multiple samples, ...