This paper introduces a new approach to the visualization of volumetric vector fields with an adaptive distribution of animated particles that show properties of the underlying steady flow. The shape of the particles illustrates the direction of the vector field in a natural way. The particles are transported along streamlines and their velocity reflects the local magnitude of the vector field. Further physical quantities of the underlying flow can be mapped to the emissive color, the transparency and the length of the particles. A major effort has been made to achieve interactive frame rates for the animation of a large number of particles while minimizing the error of the computed streamlines. There are three main advantages of the new m...
Current techniques for direct volume visualization offer only the ability to examine scalar fields. ...
We present a flow visualization technique based on rendering geometry in a dense, uniform distributi...
The use of textures provides a rich and diverse set of possibilities for the visualization of flow d...
This paper introduces a new approach to the visualization of volumetric vector fields with an adapti...
We present a technique called flow surface probes for interactive visualization of 3D steady vector ...
Vector fields are complex data sets used by a variety of research fields. They contain directional i...
We present an interactive approach to analyse flow fields using a new type of particle system, which...
Flow visualization has been an active research field for several years and various techniques have ...
We present an interactive visualization approach for the dense representation of unsteady 3D flow fi...
We propose a novel technique that allows producing dense smooth visualization of unsteady vector fie...
Vector fields visualization is quite common in many scientific disciplines and many methods have bee...
We propose a novel technique that allows producing dense smooth visualization of unsteady vector fie...
In this paper, we present an efficient level of detail algorithm for texture‐based flow visualizatio...
Vector field visualization approaches can broadly be categorized into approaches that directly visua...
Figure I: Tomado dataset rendered with different appearance textures. (a) with LIC texture pre-gene...
Current techniques for direct volume visualization offer only the ability to examine scalar fields. ...
We present a flow visualization technique based on rendering geometry in a dense, uniform distributi...
The use of textures provides a rich and diverse set of possibilities for the visualization of flow d...
This paper introduces a new approach to the visualization of volumetric vector fields with an adapti...
We present a technique called flow surface probes for interactive visualization of 3D steady vector ...
Vector fields are complex data sets used by a variety of research fields. They contain directional i...
We present an interactive approach to analyse flow fields using a new type of particle system, which...
Flow visualization has been an active research field for several years and various techniques have ...
We present an interactive visualization approach for the dense representation of unsteady 3D flow fi...
We propose a novel technique that allows producing dense smooth visualization of unsteady vector fie...
Vector fields visualization is quite common in many scientific disciplines and many methods have bee...
We propose a novel technique that allows producing dense smooth visualization of unsteady vector fie...
In this paper, we present an efficient level of detail algorithm for texture‐based flow visualizatio...
Vector field visualization approaches can broadly be categorized into approaches that directly visua...
Figure I: Tomado dataset rendered with different appearance textures. (a) with LIC texture pre-gene...
Current techniques for direct volume visualization offer only the ability to examine scalar fields. ...
We present a flow visualization technique based on rendering geometry in a dense, uniform distributi...
The use of textures provides a rich and diverse set of possibilities for the visualization of flow d...