Current techniques for direct volume visualization offer only the ability to examine scalar fields. However most scientific explorations require the examination of vector and possibly tensor fields as well as numerous scalar fields. This paper describes an algorithm to directly render three-dimensional scalar and vector fields. The algorithm uses a combination of sampling and splatting techniques, that are extended to integrate the display of vector field data within the image. Additional Keywords: vector field, flow field, volume rendering, vector filter, cornpositing, scalar field, climate modeling
Figure 1: A) A direct streamline visualization of a 3D linear vector field exhibits severe visual cl...
Visualizing 3D fluid flow fields presents a challenge to scientific visualization, mainly because no...
A wide variety of techniques have been developed for the visualization of scalar, vector and tensor ...
Current techniques for direct volume visualization offer only the ability to examine scalar fields. ...
To grasp the physical behavior of e three dimensional vector field phenomenon, not only it's magnitu...
As computers become faster and offer larger memories, scientific simulations have moved from 2 dimen...
This paper introduces a new approach to the visualization of volumetric vector fields with an adapti...
We present local and global techniques to visualize three-dimensional vector field data. Using the L...
We present a technique called flow surface probes for interactive visualization of 3D steady vector ...
Figure I: Tomado dataset rendered with different appearance textures. (a) with LIC texture pre-gene...
Today, computational fluid dynamics (CFD) research is almost impossible without computer-generated v...
technical reportThe purpose of scientific computation is insight. Visualization is the most direct w...
Vector field visualization research has evolved very rapidly over the last two decades. There is gro...
Abstract Line Integral Convolution (LIC), introduced in 1993 by Cabral and Leedom [1], is a powerfu...
With the development of 3D scanning and imaging technologies, large amount of 3D surface and volumet...
Figure 1: A) A direct streamline visualization of a 3D linear vector field exhibits severe visual cl...
Visualizing 3D fluid flow fields presents a challenge to scientific visualization, mainly because no...
A wide variety of techniques have been developed for the visualization of scalar, vector and tensor ...
Current techniques for direct volume visualization offer only the ability to examine scalar fields. ...
To grasp the physical behavior of e three dimensional vector field phenomenon, not only it's magnitu...
As computers become faster and offer larger memories, scientific simulations have moved from 2 dimen...
This paper introduces a new approach to the visualization of volumetric vector fields with an adapti...
We present local and global techniques to visualize three-dimensional vector field data. Using the L...
We present a technique called flow surface probes for interactive visualization of 3D steady vector ...
Figure I: Tomado dataset rendered with different appearance textures. (a) with LIC texture pre-gene...
Today, computational fluid dynamics (CFD) research is almost impossible without computer-generated v...
technical reportThe purpose of scientific computation is insight. Visualization is the most direct w...
Vector field visualization research has evolved very rapidly over the last two decades. There is gro...
Abstract Line Integral Convolution (LIC), introduced in 1993 by Cabral and Leedom [1], is a powerfu...
With the development of 3D scanning and imaging technologies, large amount of 3D surface and volumet...
Figure 1: A) A direct streamline visualization of a 3D linear vector field exhibits severe visual cl...
Visualizing 3D fluid flow fields presents a challenge to scientific visualization, mainly because no...
A wide variety of techniques have been developed for the visualization of scalar, vector and tensor ...