Image-guided streamline placement
SIGGRAPH '96 Proceedings of the 23rd annual conference on Computer graphics and interactive techniques
Interactive visualization of 3D-vector fields using illuminated stream lines
Proceedings of the 7th conference on Visualization '96
Simplified representation of vector fields
VIS '99 Proceedings of the conference on Visualization '99: celebrating ten years
Interactive 3D flow visualization using a streamrunner
CHI '02 Extended Abstracts on Human Factors in Computing Systems
Visualizing Second-Order Tensor Fields with Hyperstreamlines
IEEE Computer Graphics and Applications
Constructing stream surfaces in steady 3D vector fields
VIS '92 Proceedings of the 3rd conference on Visualization '92
Strategies for interactive exploration of 3D flow using evenly-spaced illuminated streamlines
SCCG '03 Proceedings of the 19th spring conference on Computer graphics
Investigating Swirl and Tumble Flow with a Comparison of Visualization Techniques
VIS '04 Proceedings of the conference on Visualization '04
Saddle Connectors - An Approach to Visualizing the Topological Skeleton of Complex 3D Vector Fields
Proceedings of the 14th IEEE Visualization 2003 (VIS'03)
Image-Based Streamline Generation and Rendering
IEEE Transactions on Visualization and Computer Graphics
Similarity-Guided Streamline Placement with Error Evaluation
IEEE Transactions on Visualization and Computer Graphics
Generation of Accurate Integral Surfaces in Time-Dependent Vector Fields
IEEE Transactions on Visualization and Computer Graphics
Comparing 3D Vector Field Visualization Methods: A User Study
IEEE Transactions on Visualization and Computer Graphics
IRIS: Illustrative Rendering for Integral Surfaces
IEEE Transactions on Visualization and Computer Graphics
IEEE Transactions on Visualization and Computer Graphics
View-Dependent Streamlines for 3D Vector Fields
IEEE Transactions on Visualization and Computer Graphics
An Information-Theoretic Framework for Flow Visualization
IEEE Transactions on Visualization and Computer Graphics
Topologically relevant stream surfaces for flow visualization
Proceedings of the 25th Spring Conference on Computer Graphics
Mesh-Driven Vector Field Clustering and Visualization: An Image-Based Approach
IEEE Transactions on Visualization and Computer Graphics
Survey of clustering algorithms
IEEE Transactions on Neural Networks
Real-time advection and volumetric illumination for the visualization of 3D unsteady flow
EUROVIS'05 Proceedings of the Seventh Joint Eurographics / IEEE VGTC conference on Visualization
Surface techniques for vortex visualization
VISSYM'04 Proceedings of the Sixth Joint Eurographics - IEEE TCVG conference on Visualization
DTI visualization with streamsurfaces and evenly-spaced volume seeding
VISSYM'04 Proceedings of the Sixth Joint Eurographics - IEEE TCVG conference on Visualization
Boundary switch connectors for topological visualization of complex 3D vector fields
VISSYM'04 Proceedings of the Sixth Joint Eurographics - IEEE TCVG conference on Visualization
Texture advection on stream surfaces: a novel hybrid visualization applied to CFD simulation results
EUROVIS'06 Proceedings of the Eighth Joint Eurographics / IEEE VGTC conference on Visualization
Technical Section: Surface-based flow visualization
Computers and Graphics
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The ability to capture and visualize information within the flow poses challenges for visualizing 3D flow fields. Stream surfaces are one of many useful integration based techniques for visualizing 3D flow. However seeding integral surfaces can be challenging. Previous research generally focuses on manual placement of stream surfaces. Little attention has been given to the problem of automatic stream surface seeding. This paper introduces a novel automatic stream surface seeding strategy based on vector field clustering. It is important that the user can define and target particular characteristics of the flow. Our framework provides this ability. The user is able to specify different vector clustering parameters enabling a range of abstraction for the density and placement of seeding curves and their associated stream surfaces. We demonstrate the effectiveness of this automatic stream surface approach on a range of flow simulations and incorporate illustrative visualization techniques. Domain expert evaluation of the results provides valuable insight into the users requirements and effectiveness of our approach. © 2012 Wiley Periodicals, Inc.