Abstract: An “Oriented Disk Interpolator” provides various techniques for interpolating between points in a point cloud using RGB images (or images in other color spaces) to produce a smooth implicit surface representation that can then be digitally sampled for ray-tracing or meshing to create a high fidelity geometric proxy from the point cloud. More specifically, the Oriented Disk Interpolator uses image color-based consistency to build an implicit surface from oriented points and images of the scene by interpolating disks in 3D space relative to a point cloud of a scene or objects within the scene. The resulting implicit surface is then available for a number of uses, including, but not limited to, constructing a high fidelity geometric proxy.

Abstract: The invention relates to generating a three-dimensional (3D) graphical representation of a building. The method comprises establishing appearance control data comprising information on parameterized architectural features of the building and on building blocks which are fragments indicative of the building, and retrieving template data from a database based on references in the appearance control data, wherein the template data relates to a prefabricated graphical representation of the building blocks. The method further comprises, for each building block, calculating a 3D graphical representation of the building block based on the respective template data and the appearance control data, and combining the 3D graphical representations of the building blocks based on the appearance control data to generate the 3D graphical representation of the building.

Abstract: A display control apparatus includes a conversion and synthesis unit that converts an array of pixels constituting each of planar images for multiple view points and synthesize the planar images in which the array of the pixels is converted to generate a three-dimensional display image, the unit including a correspondence control unit that associates view point image sub pixels with three-dimensional display sub pixels, a sub pixel value decision unit that decides a value of the sub pixel before the conversion for each color of the sub pixels on the basis of the view point image sub pixel extracted from the planar image for each view point, and a sub pixel generation unit that obtains a value of the sub pixel after the conversion on the basis of the decided value of the sub pixel before the conversion to generate the associated three-dimensional display sub pixels.

Abstract: Actions of a player character in a virtual three-dimensional space are determined for each of the extremities. The position of the end portion of each extremity is determined in the local coordinates of the extremity, with the fixed portion being the reference position. The position of the end portion is determined within a pre-defined range of access, then the joint angle of the intermediate portion is fixed, and the position of the intermediate portion is determined from the angle of rotation about the axis connecting the fixed portion and the end portion. The position of the intermediate portion is determined as angular information within the range of motion of the intermediate portion, which is defined in accordance with the position of the end portion. The shape of each extremity of the character is determined by the positional information about the end portion and the angular information about the intermediate portion.

Abstract: Tracking objects presented within a stereo three-dimensional (3D) scene. The user control device may include one or more visually indicated points for at least one tracking sensor to track. The user control device may also include other position determining devices, for example, an accelerometer and/or gyroscope. Precise 3D coordinates of the stylus may be determined based on location information from the tracking sensor(s) and additional information from the other position determining devices. A stereo 3D scene may be updated to reflect the determined coordinates.

Abstract: A texture repository is provided for use with an image manipulation application. The texture repository provides a canvas to the image manipulation application for use with an image filter. The texture repository may provide an existing canvas matching the request from the image filter, or the texture repository may generate a new canvas for the request. The generated canvas may be procedurally generated to match the request, or the generated canvas may be resized from an existing canvas stored in a non-volatile storage or a cache.

Abstract: A method of rendering customized pointing indicia including the steps of monitoring application program interface messaging and intercepting a call for a unique system pointer identifier. A stored collection of predefined vector shapes is accessed, from which a predefined vector shape is selected correlated to the current system pointer identifier. The stroke and fill attributes are set for the vector shapes. A sequence of rasterized frames of vector shapes having different attributes are created and displayed to produce animated pointing indicia effect. The customized vector shape is rasterized and displayed to an end user operating a computer. Customization, animation, and magnification of pointing indicia are performed responsive to user input, which may be a touchscreen event, body movement, hand gesture, mouse event, or a key stroke.

Abstract: An image processing apparatus includes a display control unit configured to display cross-sectional images based on planes passing through positions designated for a plurality of items of three-dimensional image data; and a change unit configured to cooperatively rotate the planes around the designated positions and to change the cross-sectional images to be displayed.

Abstract: A linear algebraic transform is established that adjusts images to be rendered by a computing device to the human from a default rendering for the baseline normal visual acuity to an adjusted rendering for the deviated visual acuity. Before visually presenting the images to be rendered by the computing device the linear algebraic transform is applied, which results in the adjusted rendering of the images. The images of the adjusted rendering are visually presented after the linear algebraic transform has been applied. The human, with myopia, hyperopia, or both, is able to perceive the images of the adjusted rendering without using the one or more corrective lenses. The perceived images are perceived with approximately a baseline normal visual acuity for the human population.

Abstract: This disclosure provides systems, methods and apparatus for providing multi-level multi-state shutter assemblies. The shutter assembly includes at least a first shutter at a first height over a substrate and a second shutter at a second height over the substrate. Both the first shutter and the second shutter can be operated in an open or closed state for passing or partially blocking light propagating through an aperture. In some implementations, the shutter assembly can operate in four states: a fully transmissive state, a fully obstructive state and two partially transmissive states based on the open or closed states of the first and second shutters.

Abstract: A 3D/2D multi-primary color image device is provided with an optical unit to direct a first image to a first group of viewers and a second image to a second group of viewers. Each color dot of the multi-primary color image device comprises at least two color sections controlled independently. A first group of viewers and a second group of viewers can view simultaneously and respectively a first image and a second image.

Abstract: In order to attain the object described above, a game apparatus is able to use display means and coordinate input means such as a touch panel, and positions a virtual camera Ca in a virtual space. Whether the coordinate input means is in an inputted state in which a player is performing a coordinate input (touch operation) on the coordinate input means, or in a non-inputted state in which a player is not performing coordinate input on the coordinate input means, is determined. When it is determined that the coordinate input means is in the non-inputted state, the game apparatus changes the imaging direction of the virtual camera Ca, based on change of an input coordinate position that is designated on the coordinate input means immediately before the coordinate input means enters the non-inputted state.

Abstract: Systems and methods for providing movement based level of detail (“LOD”) adjustments for textures in a graphics application are disclosed. The method includes displaying, in a user interface of a display device, a plurality of frames representing movement within a geographic area. The geographic area has texture rendered at one or more level of detail, the texture being based at least in part on map, satellite, or geographic imagery. The displayed level of detail of at least a portion of the geographic area is decreased in response to a frame rate of one or more of the plurality of frames and at least one of a ratio of areas of two frames of the plurality of frames, and a ratio of intersecting area of two frames of the plurality of frames to area of one of the two frames.

Abstract: A system for visualization of 3D objects and/or 3D terrain includes a processor, a display in communication with the processor, and a range metering device in communication with the processor. The system visualizes the 3D objects and/or the 3D terrain based upon their respective distances from the mobile device and based upon a respective parameter measuring the detail of the 3D object and/or the 3D terrain.

Abstract: Various methods, techniques or modules are provided to allow for the automated analysis of the 3-D representation of the upper front torso (i) to recognize 3-D anatomical features, (ii) to orient the subject with reference to their anatomy or a display, (iii) to determine dimensional analysis including direct point-to-point lines, 3-D surface lines, and volume values, (iv) to simulate the outcome with the addition of breast implants including breast and nipple positioning, (v) to assist in the selection of the breast implants, and/or (vi) to assist in the planning of breast surgery. The automated analysis is based on the analysis of changes in a 3-D contour map of the upper torso, orientation analysis of 3-D features and planes, color analysis of 3-D features, and/or dimensional analysis of 3-D features and positions of the upper torso.

Abstract: Systems and methods are provided for improved filtering and correcting of glyphs on a GPU. The computational intensity required for filtering and/or rendering can be reduced by pre-calculating some or all of the calculations needed for converting coverage data into corrected pixel values. Additional efficiencies may be realized in some embodiments by transferring data from a CPU to a GPU in an improved format. The improvements can be realized in a variety of graphics formats.

Abstract: A 3D tablet terminal (100) which is an example of a stereoscopic image display control apparatus includes: a most projecting position determination unit (104) which determines a most projecting position at which an object projects most from a display surface and a most receding position at which the object recedes most therefrom; and a display control unit (105) which causes a display device to display the object, wherein the display control unit (105) adjusts a display position of the object so that an amount of projection at the most projecting position is equal to a proper amount of projection, and processes, by a predetermined method, a portion of the object on a far side relative to the display surface when an amount of recession at the most receding position after adjusting the display position exceeds a proper amount of recession.

Abstract: The invention relates to the field of computerized generation of a visualization from a plurality of images. In particular, the invention relates to generating a three-dimensional (3D) visualization from a plurality of two-dimensional (2D) medical images. The images may be obtained from an ultrasound device. Regions of interest are segmented in at least two images and the region of interest is then tracked and segmented among the remaining images.

Abstract: A computer system and a hybrid method for combining multipoint statistic and object-based methods include creating a multi-point statistics (MPS) model using a MPS method that satisfies conditioning data and constraints in which the multi-point statistics are derived from a training image created using training-image generation parameters; generating one or more object-shape templates and depositional or structural coordinates of each facies type using the generation parameters; positioning the one or more generated templates within the MPS model such that the one or more generated templates maximally correlate to the MPS model; assigning to each of the one or more positioned templates a unique event; providing depositional or structural coordinates to each cell associated with a given event number; and modeling properties using the coordinates to capture geological trends within each template.

Abstract: A mechanism for concurrently generating a plurality of meshes is disclosed. A region of a simulated environment for a simulation is determined. An area that bounds the region is determined. The area is decomposed into a plurality of polygons. Data identifying a first elevation layer at locations in the region and a second elevation layer at the locations in the region is accessed. At least some of the polygons are processed based on a first elevation layer metric associated with the first elevation layer and a second elevation layer metric associated with the second elevation layer to concurrently generate a first mesh and a second mesh that include the at least some of the polygons.