VIS Gallery - Volume Visualization

	Shaded iso-surface rendering combined with traditional semi-transparent volume rendering using 3D texture hardware. This image was generated by an Open Inventor based volume rendering application called TIVoR. source: An Interactive Visualization and Navigation Tool for Medical Volume Data contact: Ove Sommer
	Volume visualized NASA blunt fin data set with linear transfer function (541428 tetrahedra) at an almost finished stage of sorting. source: Interactive Volume Visualization of Hierarchical 3D-Meshes by Cell-Projection contact: Christian Teitzel
	Volume visualized NASA blunt fin data set with linear transfer function (541428 tetrahedra) at an intermediate stage of sorting. source: Interactive Volume Visualization of Hierarchical 3D-Meshes by Cell-Projection contact: Christian Teitzel
	Volume visualized NASA blunt fin data set with linear transfer function (541428 tetrahedra) at an intermediate stage of sorting. source: Interactive Volume Visualization of Hierarchical 3D-Meshes by Cell-Projection contact: Christian Teitzel
	Volume visualized NASA blunt fin data set with linear transfer function (541428 tetrahedra) at an intermediate stage of sorting. source: Interactive Volume Visualization of Hierarchical 3D-Meshes by Cell-Projection contact: Christian Teitzel
	Volume visualized NASA blunt fin data set with linear transfer function (541428 tetrahedra) at an early stage of sorting. source: Interactive Volume Visualization of Hierarchical 3D-Meshes by Cell-Projection contact: Christian Teitzel
	Volume visualized NASA blunt fin data set with linear transfer function (541428 tetrahedra). source: Interactive Volume Visualization of Hierarchical 3D-Meshes by Cell-Projection contact: Christian Teitzel
	Volume visualized NASA blunt fin data set with additional iso-surface of medium pressure. source: Interactive Volume Visualization of Hierarchical 3D-Meshes by Cell-Projection contact: Christian Teitzel
	Volume visualized NASA blunt fin data set with additional iso-surface of high pressure. source: Interactive Volume Visualization of Hierarchical 3D-Meshes by Cell-Projection contact: Christian Teitzel
	NASA blunt fin data set with corresponding regular mesh. source: Interactive Volume Visualization of Hierarchical 3D-Meshes by Cell-Projection contact: Christian Teitzel
	Unstructured NASA blunt fin data set with transfer function that blends out the lowest and highest pressure values. All cells with density zero have been removed from the data set so that only 301827 of the original 541428 tetrahedra of the curvilinear data set are drawn. source: Interactive Volume Visualization of Hierarchical 3D-Meshes by Cell-Projection contact: Christian Teitzel
	Unstructured NASA blunt fin data set with transfer function that blends out the lowest and highest pressure values. All cells with density zero have been removed from the data set so that only 301827 of the original 541428 tetrahedra of the curvilinear data set are drawn. source: Interactive Volume Visualization of Hierarchical 3D-Meshes by Cell-Projection contact: Christian Teitzel
	Unstructured NASA blunt fin data set with transfer function that blends out the lowest and highest pressure values. All cells with density zero have been removed from the data set so that only 301827 of the original 541428 tetrahedra of the curvilinear data set are drawn. source: Interactive Volume Visualization of Hierarchical 3D-Meshes by Cell-Projection contact: Christian Teitzel
	MR scan of a head with transfer function showing the skull and parts of the brain (598560 tetrahedra). source: Interactive Volume Visualization of Hierarchical 3D-Meshes by Cell-Projection contact: Christian Teitzel
	Iso-surface of a head data set. source: Interactive Volume Visualization of Hierarchical 3D-Meshes by Cell-Projection contact: Christian Teitzel
	Abdomen data set with transfer function showing the spine and plevis (541474 tetrahedra). source: Interactive Volume Visualization of Hierarchical 3D-Meshes by Cell-Projection contact: Christian Teitzel
	Abdomen data set with transfer function showing soft parts of the torso (541474 tetrahedra). source: Interactive Volume Visualization of Hierarchical 3D-Meshes by Cell-Projection contact: Christian Teitzel
	Abdomen data set including an iso-surface of the spine and pelvis. source: Interactive Volume Visualization of Hierarchical 3D-Meshes by Cell-Projection contact: Christian Teitzel
	CT scan of an empty piggy bank (393014 tetrahedra) source: Interactive Volume Visualization of Hierarchical 3D-Meshes by Cell-Projection contact: Christian Teitzel
	CT scan of an empty piggy bank (393014 tetrahedra) source: Interactive Volume Visualization of Hierarchical 3D-Meshes by Cell-Projection contact: Christian Teitzel
	Analysis of an artificial lung data set source: Hierarchical Volume Analysis and Visualization Based on Morphological Operators contact: Christoph Luerig
	Engine middle high Frequency source: Hierarchical Volume Analysis and Visualization Based on Morphological Operators contact: Christoph Luerig
	Engine block high Frequency source: Hierarchical Volume Analysis and Visualization Based on Morphological Operators contact: Christoph Luerig
	Morphological Analysis of the engine block source: Hierarchical Volume Analysis and Visualization Based on Morphological Operators contact: Christoph Luerig
	Cup low frequency band source: Hierarchical Volume Analysis and Visualization Based on Morphological Operators contact: Christoph Luerig
	Cup middle frequency band source: Hierarchical Volume Analysis and Visualization Based on Morphological Operators contact: Christoph Luerig
	Morphological Analysis of the Cup reflects the wall thickness source: Hierarchical Volume Analysis and Visualization Based on Morphological Operators contact: Christoph Luerig
	Morphological Analysis of a CT-Scan source: Hierarchical Volume Analysis and Visualization Based on Morphological Operators contact: Christoph Luerig
	MIP image of a hydrogen atom on a full grid. source: Scientific Visualization on Sparse Grids contact: Christian Teitzel
	MIP image of a hydrogen atom on a sparse grid. source: Scientific Visualization on Sparse Grids contact: Christian Teitzel
	MIP image of the pressure distribution in the cavity data set on a sparse grid. source: Scientific Visualization on Sparse Grids contact: Christian Teitzel
	X-ray image of temperature distribution on a sparse grid. source: Scientific Visualization on Sparse Grids contact: Christian Teitzel
	Iso-surface of temperature in a cavity flow computed by the combination technique. source: Scientific Visualization on Sparse Grids contact: Christian Teitzel
	The main application window contains the user interface for choosing view, shading models, and rendering parameters. source: Scientific Visualization on Sparse Grids contact: Christian Teitzel
	Temperature distribution in a cavity flow given on a sparse grid visualized by volume ray casting. The Maximum Intensity Projection is used for illumination. source: Volume Visualization on Sparse Grids contact: Christian Teitzel
	Pressure distribution in a cavity flow given on a sparse grid visualized by volume ray casting. The texture hardware is used for interpolation and an X-ray model is used for illumination. source: Volume Visualization on Sparse Grids contact: Christian Teitzel
	Pressure distribution in a cavity flow given on a sparse grid visualized by volume ray casting. The combination method is used for interpolation and an X-ray model is used for illumination. source: Volume Visualization on Sparse Grids contact: Christian Teitzel
	Spherical harmonic (Legendre's function) given on a sparse grid visualized by iso-surface extraction. The function displays a solution of the Schr"odinger equation of a hydrogen atom. source: Volume Visualization on Sparse Grids contact: Christian Teitzel
	Discontinuous data set given on a sparse grid visualized by iso-surface extraction. source: Volume Visualization on Sparse Grids contact: Christian Teitzel
	Analytical test function given on a sparse grid visualized by iso-surface extraction. source: Volume Visualization on Sparse Grids contact: Christian Teitzel

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