This paper addresses the problem of symmetrical 2D flow visualization and presents solutions to compute a vector field from a flow image. Based on these solutions new, interactions mechanisms are developed which make visual corrections of 2D vector fields possible. These mechanisms permit an image-based interaction with some features of the vector field: vectors, streamlines, and critical points
The use of textures provides a rich and diverse set of possibilities for the visualization of flow d...
Today, computational fluid dynamics (CFD) research is almost impossible without computer-generated v...
Inspired by the abstracting, focusing and explanatory qualities of diagram drawing in art, in this p...
This paper addresses the problem of symmetrical 2D flow visualization and presents solutions to comp...
We present a technique called flow surface probes for interactive visualization of 3D steady vector ...
We present a novel approach for the evaluation of 2D flow visualizations based on the visual reconst...
Pattern models for analyzing, representing, and compressing experimental 2D fluid flow imagery are d...
Vector field visualization research has evolved very rapidly over the last two decades. There is gro...
Flow visualization is a research discipline that is concerned with the visual exploration and analys...
In flow visualization, field lines are often used to convey both global and local structure and move...
Figure 1: A) A direct streamline visualization of a 3D linear vector field exhibits severe visual cl...
Abstract—Seeding streamlines in 3D flow fields without considering their projections in screen space...
The use of textures provides a rich and diverse set of possibilities for the visualization of flow d...
In this paper we present several techniques to interactively explore representations of 2D vector fi...
This paper introduces Vector Field Perpendicular Surfaces as a means to represent vector data with s...
The use of textures provides a rich and diverse set of possibilities for the visualization of flow d...
Today, computational fluid dynamics (CFD) research is almost impossible without computer-generated v...
Inspired by the abstracting, focusing and explanatory qualities of diagram drawing in art, in this p...
This paper addresses the problem of symmetrical 2D flow visualization and presents solutions to comp...
We present a technique called flow surface probes for interactive visualization of 3D steady vector ...
We present a novel approach for the evaluation of 2D flow visualizations based on the visual reconst...
Pattern models for analyzing, representing, and compressing experimental 2D fluid flow imagery are d...
Vector field visualization research has evolved very rapidly over the last two decades. There is gro...
Flow visualization is a research discipline that is concerned with the visual exploration and analys...
In flow visualization, field lines are often used to convey both global and local structure and move...
Figure 1: A) A direct streamline visualization of a 3D linear vector field exhibits severe visual cl...
Abstract—Seeding streamlines in 3D flow fields without considering their projections in screen space...
The use of textures provides a rich and diverse set of possibilities for the visualization of flow d...
In this paper we present several techniques to interactively explore representations of 2D vector fi...
This paper introduces Vector Field Perpendicular Surfaces as a means to represent vector data with s...
The use of textures provides a rich and diverse set of possibilities for the visualization of flow d...
Today, computational fluid dynamics (CFD) research is almost impossible without computer-generated v...
Inspired by the abstracting, focusing and explanatory qualities of diagram drawing in art, in this p...