This paper presents a novel method to detect an important flow feature, vortices, in the ocean. Our method can detect closed streamlines around vortex cores. Coupled with existing vortex core detection, the entire vortex area, which is the combination of the vortex core and surrounding streamlines, can be detected. A variety of feature extraction methods are presented, and those more pertinent to this study are implemented. Detection results are evaluated in terms of accuracy, clarity and usability. 1
The analysis and visualization of flows is a central problem in visualization. Topology-based method...
Effective flow feature extraction enables users to explore complex flow fields by reducing visual cl...
Abstract: This article presents two over-looked post-processing techniques which provide the investi...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Ocean Engineering; and, (S.M.)--Massa...
Abstract. This paper presents two vortex detection methods which are based on the geometric properti...
International audienceThis paper is concerned with three main problems of image processing occuring ...
International audienceThis paper deals with the problem of automatic interpretation of ocea...
National audienceThis paper is concerned with three main problems of image processing occuring on te...
An approach to automatic detection of significant spatial patterns of ocean eddies was proposed on t...
The analysis of flow datasets becomes more and more challenging due to the sheer data size produced ...
Accurate feature detection in both imagery (scalar data) and model output (scalar and vector data) i...
Presented here is a novel tool to extract and track believable vortex core lines from unsteady Compu...
Vector fields, especially flow, and their analysis are of paramount importance to a wide variety of ...
Vortex cores in fluid mechanics are easy to visualise, yet difficult to detect numerically. Precise ...
In spite of recent advances, visualizing complex flow fields remains a major challenge. For 2D domai...
The analysis and visualization of flows is a central problem in visualization. Topology-based method...
Effective flow feature extraction enables users to explore complex flow fields by reducing visual cl...
Abstract: This article presents two over-looked post-processing techniques which provide the investi...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Ocean Engineering; and, (S.M.)--Massa...
Abstract. This paper presents two vortex detection methods which are based on the geometric properti...
International audienceThis paper is concerned with three main problems of image processing occuring ...
International audienceThis paper deals with the problem of automatic interpretation of ocea...
National audienceThis paper is concerned with three main problems of image processing occuring on te...
An approach to automatic detection of significant spatial patterns of ocean eddies was proposed on t...
The analysis of flow datasets becomes more and more challenging due to the sheer data size produced ...
Accurate feature detection in both imagery (scalar data) and model output (scalar and vector data) i...
Presented here is a novel tool to extract and track believable vortex core lines from unsteady Compu...
Vector fields, especially flow, and their analysis are of paramount importance to a wide variety of ...
Vortex cores in fluid mechanics are easy to visualise, yet difficult to detect numerically. Precise ...
In spite of recent advances, visualizing complex flow fields remains a major challenge. For 2D domai...
The analysis and visualization of flows is a central problem in visualization. Topology-based method...
Effective flow feature extraction enables users to explore complex flow fields by reducing visual cl...
Abstract: This article presents two over-looked post-processing techniques which provide the investi...