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Employing 2D Projections for Fast Visual Exploration of Large Fiber Tracking Data
Fiber tracts detection is an increasingly common technology for diagnosis and also understanding of brain function. Although tools for tracing and presenting brain fibers are advanced, it is still difficult for physicians or students to explore the dataset in 3D due to their intricate topology. In t...
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| Published in: | Computer graphics forum 2012-06, Vol.31 (3pt2), p.1075-1084 |
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| Main Authors: | , , , |
| Format: | Article |
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| cites | cdi_FETCH-LOGICAL-c4120-3fcf672d22ead7181d54fa11fb95c8251d31bd0f4824fa0aa478dae17c629eb43 |
| container_end_page | 1084 |
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| creator | Poco, Jorge Eler, Danilo M. Paulovich, Fernando V. Minghim, Rosane |
| description | Fiber tracts detection is an increasingly common technology for diagnosis and also understanding of brain function. Although tools for tracing and presenting brain fibers are advanced, it is still difficult for physicians or students to explore the dataset in 3D due to their intricate topology. In this work we present a visual exploration approach for fiber tracts data aimed at supporting exploration of such data. The work employs a local, precise and fast 2D multidimensional projection technique that allows a large number of fibers to be handled simultaneously and to select groups of bundled fibers for further exploration. In this approach, a DTI feature dataset, including curvature as well as spatial features, is projected on a 2D or 3D view. By handling groups formed in this view, exploration is linked to corresponding brain fibers in object space. The link exists in both directions and fibers selected in object space are also mapped to feature space. Our approach also allows users to modify the projection, controlling and improving, if necessary, the definition of groups of fibers for small and large datasets, due to the local nature of the projection. Compared to other related work, the method presented here is faster for creating visual representations, making it possible to explore complete sets of fibers tracts up to 250K fibers, which was not possible previously. Additionally, the ability to change configuration of the feature space representation adds a high degree of flexibility to the process. |
| doi_str_mv | 10.1111/j.1467-8659.2012.03100.x |
| format | article |
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Our approach also allows users to modify the projection, controlling and improving, if necessary, the definition of groups of fibers for small and large datasets, due to the local nature of the projection. Compared to other related work, the method presented here is faster for creating visual representations, making it possible to explore complete sets of fibers tracts up to 250K fibers, which was not possible previously. 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Although tools for tracing and presenting brain fibers are advanced, it is still difficult for physicians or students to explore the dataset in 3D due to their intricate topology. In this work we present a visual exploration approach for fiber tracts data aimed at supporting exploration of such data. The work employs a local, precise and fast 2D multidimensional projection technique that allows a large number of fibers to be handled simultaneously and to select groups of bundled fibers for further exploration. In this approach, a DTI feature dataset, including curvature as well as spatial features, is projected on a 2D or 3D view. By handling groups formed in this view, exploration is linked to corresponding brain fibers in object space. The link exists in both directions and fibers selected in object space are also mapped to feature space. Our approach also allows users to modify the projection, controlling and improving, if necessary, the definition of groups of fibers for small and large datasets, due to the local nature of the projection. Compared to other related work, the method presented here is faster for creating visual representations, making it possible to explore complete sets of fibers tracts up to 250K fibers, which was not possible previously. 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Our approach also allows users to modify the projection, controlling and improving, if necessary, the definition of groups of fibers for small and large datasets, due to the local nature of the projection. Compared to other related work, the method presented here is faster for creating visual representations, making it possible to explore complete sets of fibers tracts up to 250K fibers, which was not possible previously. Additionally, the ability to change configuration of the feature space representation adds a high degree of flexibility to the process.</abstract><cop>Oxford, UK</cop><pub>Blackwell Publishing Ltd</pub><doi>10.1111/j.1467-8659.2012.03100.x</doi><tpages>10</tpages></addata></record> |
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| source | Business Source Ultimate【Trial: -2024/12/31】【Remote access available】; EBSCOhost Art & Architecture Source; Wiley-Blackwell Read & Publish Collection |
| subjects | Analysis Brain Computer graphics Curvature Diagnostics Exploration Fibers H.5.0 [Information Interfaces and Presentation]: General I.3.6 [Computer Graphics]: Methodology and Techniques I.3.8 [Computing Methodologies]: Computer Graphics-Applications Projection Studies Three dimensional Two dimensional Visual Visualization |
| title | Employing 2D Projections for Fast Visual Exploration of Large Fiber Tracking Data |
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