This paper presents a study of field line visualization techniques. To address both the computational and perceptual issues in visualizing large scale, complex, dense field line data commonly found in many scientific applications, a new texture-based field line representation which we call selforienting surfaces is introduced. This scalable representation facilitates hardware-accelerated rendering and incorporation of various perceptually-effective techniques, resulting in intuitive visualization and interpretation of the data under study. An electromagnetic data set obtained from accelerator modeling and a fluid flow data set from aerodynamics modeling are used for evaluation and demonstration of the techniques
We present a technique called flow surface probes for interactive visualization of 3D steady vector ...
We propose a novel technique that allows producing dense smooth visualization of unsteady vector fie...
This paper introduces a new approach to the visualization of volumetric vector fields with an adapti...
This paper presents a study of field line visualization tech-niques. To address both the computation...
Detlev Stalling Malte Zo¨ckler Hans-Christian Hege A new technique for interactive vector field visu...
Previous papers have described a general method for visualizing vector fields that involves drawing ...
We propose a novel approach for a dense texture-based visualization of vector fields on curved surfa...
technical reportThe research is focused on developing new techniques for visualizing FEA data sets. ...
In this work, a novel approach to scientific visualization and steerable texture synthesis is presen...
Data Visualization is a field that explores how to most efficiently convey information to the user, ...
The use of textures provides a rich and diverse set of possibilities for the visualization of flow d...
The use of textures provides a rich and diverse set of possibilities for the visualization of flow d...
This paper introduces Vector Field Perpendicular Surfaces as a means to represent vector data with s...
In this paper, we present an interactive method for visualizing three-dimensional nonlinear, unstead...
Many large scale physics-based simulations which take place on PC clusters or supercomputers produce...
We present a technique called flow surface probes for interactive visualization of 3D steady vector ...
We propose a novel technique that allows producing dense smooth visualization of unsteady vector fie...
This paper introduces a new approach to the visualization of volumetric vector fields with an adapti...
This paper presents a study of field line visualization tech-niques. To address both the computation...
Detlev Stalling Malte Zo¨ckler Hans-Christian Hege A new technique for interactive vector field visu...
Previous papers have described a general method for visualizing vector fields that involves drawing ...
We propose a novel approach for a dense texture-based visualization of vector fields on curved surfa...
technical reportThe research is focused on developing new techniques for visualizing FEA data sets. ...
In this work, a novel approach to scientific visualization and steerable texture synthesis is presen...
Data Visualization is a field that explores how to most efficiently convey information to the user, ...
The use of textures provides a rich and diverse set of possibilities for the visualization of flow d...
The use of textures provides a rich and diverse set of possibilities for the visualization of flow d...
This paper introduces Vector Field Perpendicular Surfaces as a means to represent vector data with s...
In this paper, we present an interactive method for visualizing three-dimensional nonlinear, unstead...
Many large scale physics-based simulations which take place on PC clusters or supercomputers produce...
We present a technique called flow surface probes for interactive visualization of 3D steady vector ...
We propose a novel technique that allows producing dense smooth visualization of unsteady vector fie...
This paper introduces a new approach to the visualization of volumetric vector fields with an adapti...