We propose a novel technique that allows producing dense smooth visualization of unsteady vector fields. The suggested algorithm is texture-based: the field, which may depend on various quantities, such as time, determines how a chosen basic pattern of a texture has to be transformed and adapted to locally represent the features and variation of the field. Texture synthesis methods that aim at generating globally smooth textures yield dense visualizations of the vector field. Extending this synthesis in time leads to texture-based animations with frame-to-frame coherence. This approach is general and produces unsteady field visualizations in an intuitive and straightforward way. Additional degrees of freedom offer ways for user intervention...
Summary. Iterative twofold convolution is proposed as an efficient high-quality two-stage filtering ...
We propose a novel approach for a dense texture-based visualization of vector fields on curved surfa...
Vector fields arise from experiments and simulations in many scientific and engineering disciplines....
We propose a novel technique that allows producing dense smooth visualization of unsteady vector fie...
In this work, a novel approach to scientific visualization and steerable texture synthesis is presen...
This paper introduces a new approach to the visualization of volumetric vector fields with an adapti...
Vector field visualization aims at generating images in order to convey the information existing in ...
Vector field visualization aims at generating images in order to convey the information existing in ...
We present an interactive visualization approach for the dense representation of unsteady 3D flow fi...
We present an interactive visualization approach for the dense representation of unsteady 3D flow fi...
Flow visualization has been a very attractive component of scientific visualization research for a l...
The visualization of unsteady flows is an attractive field of research and texture-based techniques ...
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...
In this paper, a method is proposed to use the directional information of a near-regular texture to ...
Summary. Iterative twofold convolution is proposed as an efficient high-quality two-stage filtering ...
We propose a novel approach for a dense texture-based visualization of vector fields on curved surfa...
Vector fields arise from experiments and simulations in many scientific and engineering disciplines....
We propose a novel technique that allows producing dense smooth visualization of unsteady vector fie...
In this work, a novel approach to scientific visualization and steerable texture synthesis is presen...
This paper introduces a new approach to the visualization of volumetric vector fields with an adapti...
Vector field visualization aims at generating images in order to convey the information existing in ...
Vector field visualization aims at generating images in order to convey the information existing in ...
We present an interactive visualization approach for the dense representation of unsteady 3D flow fi...
We present an interactive visualization approach for the dense representation of unsteady 3D flow fi...
Flow visualization has been a very attractive component of scientific visualization research for a l...
The visualization of unsteady flows is an attractive field of research and texture-based techniques ...
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...
In this paper, a method is proposed to use the directional information of a near-regular texture to ...
Summary. Iterative twofold convolution is proposed as an efficient high-quality two-stage filtering ...
We propose a novel approach for a dense texture-based visualization of vector fields on curved surfa...
Vector fields arise from experiments and simulations in many scientific and engineering disciplines....