We introduce a new framework for non-linear, non-reconstructive deformation of volumetric datasets. Traditional techniques for deforming volumetric datasets non-linearly usually involve a reconstruction stage, where a new deformed volume is recon- structed and then sent to the renderer. Our intuitive sweep-based technique avoids the drawbacks of reconstruction by creating a small attribute field which defines the deformation, and then sending it with the original volume dataset to the rendering stage. This paper also introduces acceleration techniques aimed at giving interactive control of deformation in future implementations
Volume rendering is becoming increasingly popular as applications require realistic solid shape repr...
Figure 1: Our framework for generating deformation with enforced metrics provides a user-friendly to...
Volume rendering is a technique for simultaneous visualization of surfaces and inner structures of o...
We introduce a new framework for non-linear, non-reconstructive deformation of volumetric datasets. ...
We introduce a new framework for non-linear, non-reconstructive deformation of volumetric datasets. ...
This paper presents an integrated approach for interactive direct volume deformation and simultaneou...
Real-time free-form deformation tools are primarily based on surface or particle representations to ...
We present a rendering algorithm for the forward projection of volume deformations. Spatial deformat...
Over the last decade, visualization techniques for 3-dimensional volumetric models, especially those...
In this paper, we describe a set of algorithms and an implementation (called VolEdit), for interacti...
The purpose of visualization is to gain understanding of 3D structures through images. Although many...
We present novel mesh deformation techniques using volumetric constraints. Firstly, we propose a fas...
Volume visualization, which is a relatively new branch in scientific visualization, not only display...
AbstractIn this paper, we introduce a new deformable volume rendering algorithm. By embedding deform...
The rapid development of volume graphics offers ample scope to develop new methods and tools for com...
Volume rendering is becoming increasingly popular as applications require realistic solid shape repr...
Figure 1: Our framework for generating deformation with enforced metrics provides a user-friendly to...
Volume rendering is a technique for simultaneous visualization of surfaces and inner structures of o...
We introduce a new framework for non-linear, non-reconstructive deformation of volumetric datasets. ...
We introduce a new framework for non-linear, non-reconstructive deformation of volumetric datasets. ...
This paper presents an integrated approach for interactive direct volume deformation and simultaneou...
Real-time free-form deformation tools are primarily based on surface or particle representations to ...
We present a rendering algorithm for the forward projection of volume deformations. Spatial deformat...
Over the last decade, visualization techniques for 3-dimensional volumetric models, especially those...
In this paper, we describe a set of algorithms and an implementation (called VolEdit), for interacti...
The purpose of visualization is to gain understanding of 3D structures through images. Although many...
We present novel mesh deformation techniques using volumetric constraints. Firstly, we propose a fas...
Volume visualization, which is a relatively new branch in scientific visualization, not only display...
AbstractIn this paper, we introduce a new deformable volume rendering algorithm. By embedding deform...
The rapid development of volume graphics offers ample scope to develop new methods and tools for com...
Volume rendering is becoming increasingly popular as applications require realistic solid shape repr...
Figure 1: Our framework for generating deformation with enforced metrics provides a user-friendly to...
Volume rendering is a technique for simultaneous visualization of surfaces and inner structures of o...