Add to ORKGIntroduction Flow visualization has a long tradition in scientific data visualization. Approaches for 3D vector fields however have only recently experienced a boost due to the introduction of programmable graphics hardware with large texture memory. Consequently, volumetric flow visualization has entered many disciplines of science and engineering including mechanics, physics, chemistry, meteorology, geology, and medicine. Many applications are concerned with steady or unsteady flow over 2D or 3D domains. By adopting ideas from texture-based techniques and taking advantage of parallelism and programmability of contemporary graphics hardware, we introduce a dense geometric flow visualization technique based on streamlines and pathlines add...
This paper introduces a new approach to the visualization of volumetric vector fields with an adapti...
Journal ArticleWe introduce a novel flow visualization method called Flow Charts, which uses a textu...
Flow volumes are extended for use in unsteady (time-dependent) flows. The resulting unsteady flow vo...
We present a flow visualization technique based on rendering geometry in a dense, uniform distributi...
Flow visualization has been a very attractive component of scientific visualization research for a l...
Flow visualization has been a very attractive component of scientific visualization research for a l...
We present an interactive visualization approach for the dense representation of unsteady 3D flow fi...
With ever increasing computing power, it is possible to process ever more complex fluid simulations....
We present an interactive visualization approach for the dense representation of unsteady 3D flow fi...
In this paper, we present an efficient level of detail algorithm for texture‐based flow visualizatio...
We present an interactive visualization approach for the dense representation of unsteady 3D flow fi...
In this paper, we present an efficient level of detail algorithm for texture‐based flow visualizatio...
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...
Flow (data) visualization plays a crucial role in a wide variety of areas such as oceanographic-atmo...
This paper introduces a new approach to the visualization of volumetric vector fields with an adapti...
Journal ArticleWe introduce a novel flow visualization method called Flow Charts, which uses a textu...
Flow volumes are extended for use in unsteady (time-dependent) flows. The resulting unsteady flow vo...
We present a flow visualization technique based on rendering geometry in a dense, uniform distributi...
Flow visualization has been a very attractive component of scientific visualization research for a l...
Flow visualization has been a very attractive component of scientific visualization research for a l...
We present an interactive visualization approach for the dense representation of unsteady 3D flow fi...
With ever increasing computing power, it is possible to process ever more complex fluid simulations....
We present an interactive visualization approach for the dense representation of unsteady 3D flow fi...
In this paper, we present an efficient level of detail algorithm for texture‐based flow visualizatio...
We present an interactive visualization approach for the dense representation of unsteady 3D flow fi...
In this paper, we present an efficient level of detail algorithm for texture‐based flow visualizatio...
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...
Flow (data) visualization plays a crucial role in a wide variety of areas such as oceanographic-atmo...
This paper introduces a new approach to the visualization of volumetric vector fields with an adapti...
Journal ArticleWe introduce a novel flow visualization method called Flow Charts, which uses a textu...
Flow volumes are extended for use in unsteady (time-dependent) flows. The resulting unsteady flow vo...