Patent application number | Description | Published |
20140045592 | DELIVERY OF PROJECTIONS FOR RENDERING - A workflow for 3D content authoring, delivery, and rendering is facilitated based on pre-authored image projections to obtain improvements in authoring efficiency. Additionally, a content delivery platform centered on such pre-authored image projections provides a mechanism for significantly improving streaming efficiency for 3D worlds. Multiple images encode primary surface detail of 3D worlds in real-time applications. Examples of such projections include images that can be as rich as film frames, feature animation frames, high end digital renders, concept paintings, or any suitable combination thereof. An algorithm for improved image projection camera path trajectories, sampling selection, and blending may be implemented by various systems and methods to facilitate smooth transitions during movements of a player within a game set in the 3D space. In addition, a back-projection technique may be implemented by various systems and methods to propagate revisions of one or more projections. | 02-13-2014 |
20140247982 | GENERATION OF INTERMEDIATE IMAGES FOR TEXTURE COMPRESSION - A machine may be configured to process an uncompressed image to obtain a set of intermediate images, which may be alternatively known as working images or temporary images. Such a set of intermediate images may be used as input for an image compression algorithm that, when executed by the machine or other compression engine, outputs a compressed version of the uncompressed image. For example, a compression format called “PVRTC,” which may be used on certain portable devices, accepts a set of three intermediate images as input, specifically, one full resolution, low precision version of the original uncompressed image, plus two low resolution, low frequency color versions of the original uncompressed image. A set of intermediate images for such a compression format may be generated by the machine from the original uncompressed image. | 09-04-2014 |
20140248948 | SEQUENTIAL SELECTION OF MULTIPLE OBJECTS - A device may be configured to provide a user interface that supports sequential selection of objects displayed on a screen. As configured, the device may display a presentation of multiple objects, and the device may receive a user input that defines a path within the presentation of displayed objects. The device may then determine the sequential order of a selected subset of the displayed objects. Based on this sequential order, the device may select, initiate, and perform an action that is targeted at the selected subset of the objects. In the context of an action game, the user may trace the path through various enemies, and the device may select and perform the action based on the number of enemies, the type of enemies, or the order in which the enemies were selected. Selection and initiation of the action may begin while the user input is still being received. | 09-04-2014 |
20150154789 | GENERATION OF INTERMEDIATE IMAGES FOR TEXTURE COMPRESSION - A machine may be configured to process an uncompressed image to obtain a set of intermediate images, which may be alternatively known as working images or temporary images. Such a set of intermediate images may be used as input for an image compression algorithm that, when executed by the machine or other compression engine, outputs a compressed version of the uncompressed image. For example, a compression format called “PVRTC,” which may be used on certain portable devices, accepts a set of three intermediate images as input, specifically, one full resolution, low precision version of the original uncompressed image, plus two low resolution, low frequency color versions of the original uncompressed image. A set of intermediate images for such a compression format may be generated by the machine from the original uncompressed image. | 06-04-2015 |
20150177931 | SEQUENTIAL SELECTION OF MULTIPLE OBJECTS - A device may be configured to provide a user interface that supports sequential selection of objects displayed on a screen. As configured, the device may display a presentation of multiple objects, and the device may receive a user input that defines a path within the presentation of displayed objects. The device may then determine the sequential order of a selected subset of the displayed objects. Based on this sequential order, the device may select, initiate, and perform an action that is targeted at the selected subset of the objects. In the context of an action game, the user may trace the path through various enemies, and the device may select and perform the action based on the number of enemies, the type of enemies, or the order in which the enemies were selected. Selection and initiation of the action may begin while the user input is still being received. | 06-25-2015 |
20150317823 | RENDERING BASED ON MULTIPLE PROJECTIONS - A workflow for 3D content authoring, delivery, and rendering is facilitated based on pre-authored image projections to obtain improvements in authoring efficiency. Additionally, a content delivery platform centered on such pre-authored image projections provides a mechanism for significantly improving streaming efficiency for 3D worlds. Multiple images encode primary surface detail of 3D worlds in real-time applications. Examples of such projections include images that can be as rich as film frames, feature animation frames, high end digital renders, concept paintings, or any suitable combination thereof. An algorithm for improved image projection camera path trajectories, sampling selection, and blending may be implemented by various systems and methods to facilitate smooth transitions during movements of a player within a game set in the 3D space. In addition, a back-projection technique may be implemented by various systems and methods to propagate revisions of one or more projections. | 11-05-2015 |
20160059129 | DELIVERY OF PROJECTIONS FOR RENDERING - A workflow for 3D content authoring, delivery, and rendering is facilitated based on pre-authored image projections to obtain improvements in authoring efficiency. Additionally, a content delivery platform centered on such pre-authored image projections provides a mechanism for significantly improving streaming efficiency for 3D worlds. Multiple images encode primary surface detail of 3D worlds in real-time applications. Examples of such projections include images that can be as rich as film frames, feature animation frames, high end digital renders, concept paintings, or any suitable combination thereof. An algorithm for improved image projection camera path trajectories, sampling selection, and blending may be implemented by various systems and methods to facilitate smooth transitions during movements of a player within a game set in the 3D space. In addition, a back-projection technique may be implemented by various systems and methods to propagate revisions of one or more projections. | 03-03-2016 |