| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 345621000 | Based on model of objects | 7 |
| 20090079762 | METHOD FOR PRODUCING MULTI-VIEWPOINT IMAGE FOR THREE-DIMENSIONAL IMAGE DISPLAY AND PROGRAM THEREFOR - A method for producing a multi-viewpoint image for a three-dimensional image display, includes: providing a plurality of viewpoints to be spaced at equal intervals in direction perpendicular to a single reference projection plane including target viewpoints serving as reference are spaced at constant intervals in a first direction parallel to the reference projection plane; providing a plurality of individual target viewpoints which are respectively different from the target viewpoints serving as reference and serve as feet of a perpendicular to the plurality of viewpoints, corresponding to the respective viewpoint, on a projection plane which is a plane including the reference projection plane; making determination such that the shapes and the sizes of the individual projection planes are included in the reference projection plane in overlapping regions of the individual projection planes acquired from two viewpoints positioned at the outermost positions of the plurality of viewpoints; and clipping only regions of the reference projection plane from the individual projection planes acquired from the respective viewpoints to form a multi-viewpoint image for three-dimensional image display. | 03-26-2009 |
| 20090115798 | IMAGE PROCESSING APPARATUS, IMAGE PROCESSING METHOD, AND IMAGE PROCESSING PROGRAM - An image processing apparatus that displays, on a display region having a first number of pixels, an image represented by gigantic image data that is recorded in a recording medium and has a second number of pixels that is significantly greater than the first number of pixels, including: a reproducing unit configured to read image data from the recording medium; an output unit configured to output the image data, which is read by the reproducing unit from the recording medium, in synchronization with a vertical synchronization signal; and a control unit configured to control the reproducing unit and the output unit. The control unit performs control to extract and read a region corresponding to the display region from the gigantic image data recorded in the recording medium. | 05-07-2009 |
| 20100118050 | NON-LINEAR IMAGE MAPPING USING A PLURALITY OF NON-LINEAR IMAGE MAPPERS OF LESSER RESOLUTION - A display system and method for displaying an image on a non-planar display that allows the images to be mapped by image mappers while encompassing image data of an adjacent sub-image or sub-images. This allows a single unified image to be displayed in real time without any tearing or positional/angular artifacts at the image boundaries. | 05-13-2010 |
| 20100156931 | AUTOMATIC IMAGE CROPPING - Disclosed is a method of producing a cropped image from an original image for a given target crop region. The method comprising receives a plurality of example crops, each example crop corresponding to at least a part of the original image. Two example crops are selected based on at least a property of the target crop region. The method interpolates between the selected example crops to determine a crop window, crops the original image with the determined crop window to produce the cropped image. | 06-24-2010 |
| 345622000 | Testing or using bounding shape (e.g., bounding box sphere) | 3 |
| 20130038628 | AUTOMATED BOUNDING BOX GENERATION WITHIN THE BOUNDARIES OF ARBITRARY SHAPES - One embodiment is directed to a computer program, embodied on a computer readable medium. The computer program is configured to control a processor to execute instructions. The instructions include sampling a plurality of points that lie within the interior of an arbitrary shape, drawing one or more rectangles from each of the points, gradually increasing the length and width of the rectangles until the rectangles no longer falls within the interior of the arbitrary shape, and assigning the largest of the increased rectangles as the interior bounding box. | 02-14-2013 |
| 20130176331 | SYSTEM AND METHOD FOR FRAMEWORK CLIPPING - A method and system for framework clipping are disclosed. A user interface tree of widgets corresponding to widgets requiring clipping is traversed. For each encountered widget, layer allocation operations are performed which include selecting a current, previous, or next layer to which to allocate the widget and determining whether the selected layer can accommodate the widget, where a determination that the selected layer cannot accommodate the widget results in a bit from a stencil buffer being allocated to the selected layer. A value of the selected layer is incremented to account for the widget being allocated to the selected layer A stencil test mask is generated as a combination of value of the layers previous to a current layer. The stencil test mask is written to the stencil buffer, and the layer allocation operations are repeated for each remaining widget. | 07-11-2013 |
| 20140160151 | SYSTEM AND METHOD FOR COMPRESSING BOUNDING BOX DATA AND PROCESSOR INCORPORATING THE SAME - Methods of compressing (and decompressing) bounding box data and a processor incorporating one or more of the methods. In one embodiment, a method of compressing such data includes: (1) generating dimension-specific multiplicands and a floating-shared scale multiplier from floating-point numbers representing extents of the bounding box and (2) substituting portions of floating-point numbers representing a reference point of the bounding box with the dimension-specific multiplicands to yield floating-point packed boundary box descriptors, the floating-point shared scale multiplier and the floating-point packed boundary box descriptors together constituting compressed bounding box data. | 06-12-2014 |
