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Journal Articles IEEE Transactions on Visualization and Computer Graphics Year : 2018

FiberClay: Sculpting Three Dimensional Trajectories to Reveal Structural Insights

Abstract

FiberClay is an immersive multidimensional visualization system. The user can navigate into trail sets to gain a better understanding of dense and complex datasets. Left, the user activated the union brushing interaction to select trails intersected by the two beams in a recorded aircraft trajectory dataset. Middle, the user investigates DTI fiber tracks connecting the two hemisphere of the brain. Right, the user refine a data selection by visually sculpting the query with the two brush interactions while navigating into the different visual mappings (e.g. presets) of the investigated dataset. Abstract— Visualizing 3D trajectories to extract insights about their similarities and spatial configuration is a critical task in several domains. Air traffic controllers for example deal with large quantities of aircrafts routes to optimize safety in airspace and neuroscientists attempt to understand neuronal pathways in the human brain by visualizing bundles of fibers from DTI images. Extracting insights from masses of 3D trajectories is challenging as the multiple three dimensional lines have complex geometries, may overlap, cross or even merge with each other, making it impossible to follow individual ones in dense areas. As trajectories are inherently spatial and three dimensional, we propose FiberClay: a system to display and interact with 3D trajectories in immersive environments. FiberClay renders a large quantity of trajectories in real time using GP-GPU techniques. FiberClay also introduces a new set of interactive techniques for composing complex queries in 3D space leveraging immersive environment controllers and user position. These techniques enable an analyst to select and compare sets of trajectories with specific geometries and data properties. We conclude by discussing insights found using FiberClay with domain experts in air traffic control and neurology.
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Dates and versions

hal-01857930 , version 1 (17-08-2018)

Identifiers

Cite

Christophe Hurter, Nathalie Riche, Steven M. Drucker, Maxime Cordeil, Richard Alligier, et al.. FiberClay: Sculpting Three Dimensional Trajectories to Reveal Structural Insights. IEEE Transactions on Visualization and Computer Graphics, 2018, pp.704-714. ⟨10.1109/TVCG.2018.2865191⟩. ⟨hal-01857930⟩
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