Processes and systems in computer enabled imaging for the mapping of volume rendering colors upon polygonal model objects applied to computer enabled volume rendering by means of mapping or encoding the color of volume rendering data upon polygonal model objects located inside volumetric data. Exemplary processes and systems including assigning the rendering result of voxels at or near the surface of the polygonal object.

Processes and systems in computer enabled imaging for the mapping of volume rendering colors upon polygonal model objects applied to computer enabled volume rendering by means of mapping or encoding the color of volume rendering data upon polygonal model objects located inside volumetric data. Exemplary processes and systems including assigning the rendering result of voxels at or near the surface of the polygonal object.

A system, method, and computer program product are provided for processing primitive-specific attributes. A portion of a graphics processor is determined to operate in a fast geometry shader mode and a vertex associated with a set of per-vertex attributes is determined to be a shared vertex. The shared vertex is determined to be a non-provoking vertex corresponding to a first primitive that is associated with a first set of per-primitive attributes and the shared vertex is determined to be a provoking vertex corresponding to a second primitive that is associated with a second set of per-primitive attributes. Only one set of the per-vertex attributes associated with the shared vertex is stored and only one of the second set of per-primitive attributes associated with the second primitive is stored.

A system, method, and computer program product are provided for processing primitive-specific attributes. A portion of a graphics processor is determined to operate in a fast geometry shader mode and a vertex associated with a set of per-vertex attributes is determined to be a shared vertex. The shared vertex is determined to be a non-provoking vertex corresponding to a first primitive that is associated with a first set of per-primitive attributes and the shared vertex is determined to be a provoking vertex corresponding to a second primitive that is associated with a second set of per-primitive attributes. Only one set of the per-vertex attributes associated with the shared vertex is stored and only one of the second set of per-primitive attributes associated with the second primitive is stored.

An information processing device includes a displaced position calculation processing unit, a spatial value acquisition processing unit, and a spatial value display processing unit. The displaced position calculation processing unit is configured to determine displaced position data on a position displaced from an optional point on surface shape data on a surface of a measurement target in a given direction by a given distance. The spatial value acquisition processing unit is configured to acquire, based on spatial region values represented by volume data formed in a space containing a shape of the measurement target and the displaced position data, a spatial region value for a position stored in the displaced position data. The spatial value display processing unit is configured to dispose and display a display material corresponding to the spatial region value on the surface shape data.

An information processing device includes a displaced position calculation processing unit, a spatial value acquisition processing unit, and a spatial value display processing unit. The displaced position calculation processing unit is configured to determine displaced position data on a position displaced from an optional point on surface shape data on a surface of a measurement target in a given direction by a given distance. The spatial value acquisition processing unit is configured to acquire, based on spatial region values represented by volume data formed in a space containing a shape of the measurement target and the displaced position data, a spatial region value for a position stored in the displaced position data. The spatial value display processing unit is configured to dispose and display a display material corresponding to the spatial region value on the surface shape data.

An information processing device includes a displaced position calculation processing unit, a spatial value acquisition processing unit, and a spatial value display processing unit. The displaced position calculation processing unit is configured to determine displaced position data on a position displaced from an optional point on surface shape data on a surface of a measurement target in a given direction by a given distance. The spatial value acquisition processing unit is configured to acquire, based on spatial region values represented by volume data formed in a space containing a shape of the measurement target and the displaced position data, a spatial region value for a position stored in the displaced position data. The spatial value display processing unit is configured to dispose and display a display material corresponding to the spatial region value on the surface shape data.

An information processing device includes a displaced position calculation processing unit, a spatial value acquisition processing unit, and a spatial value display processing unit. The displaced position calculation processing unit is configured to determine displaced position data on a position displaced from an optional point on surface shape data on a surface of a measurement target in a given direction by a given distance. The spatial value acquisition processing unit is configured to acquire, based on spatial region values represented by volume data formed in a space containing a shape of the measurement target and the displaced position data, a spatial region value for a position stored in the displaced position data. The spatial value display processing unit is configured to dispose and display a display material corresponding to the spatial region value on the surface shape data.

Generating image data for a room image, including: generating at least one planar layer in depth for a first room image; generating at least one wall layer for a wall in the first room image; creating a second room image by duplicating one or more of the at least one planar layer for the first room image and duplicating one of more of the at least one wall layer for the first room image, and modifying the at least one duplicate planar layer and the at least one duplicate wall layer; and applying the first room image and the second room image as patterns to a surface of a building image.

Generating image data for a room image, including: generating at least one planar layer in depth for a first room image; generating at least one wall layer for a wall in the first room image; creating a second room image by duplicating one or more of the at least one planar layer for the first room image and duplicating one of more of the at least one wall layer for the first room image, and modifying the at least one duplicate planar layer and the at least one duplicate wall layer; and applying the first room image and the second room image as patterns to a surface of a building image.