| DreamWorks Animation LLC Patent applications |
| Patent application number | Title | Published |
|---|
| 20120026172 | COLLISION FREE CONSTRUCTION OF ANIMATED FEATHERS - To generate a skin-attached element on a skin surface of an animated character, a region of the skin surface within a predetermined distance from a skin-attached element root position is deformed to form a lofted skin according to one of a plurality of constraint surfaces, where each of the plurality of constraint surfaces does not intersect with each other. A sublamina mesh surface constrained to the lofted skin is created. A two-dimensional version of the skin-attached element is projected onto the sublamina mesh surface. The lofted skin is reverted back to a state of the skin surface prior to the deformation of the region of the skin surface. | 02-02-2012 |
| 20120001909 | SEAMLESS FRACTURE IN A PRODUCTION PIPELINE - Systems and processes for rendering fractures in an object are provided. In one example, a surface representation of an object may be converted into a volumetric representation of the object. The volumetric representation of the object may be divided into volumetric representations of two or more fragments. The volumetric representations of the two or more fragments may be converted into surface representations of the two or more fragments. Additional information associated with attributes of adjacent fragments may be used to convert the volumetric representations of the two or more fragments into surface representations of the two or more fragments. The surface representations of the two or more fragments may be displayed. | 01-05-2012 |
| 20110043521 | RAY-AGGREGATION FOR RAY-TRACING DURING RENDERING OF IMAGERY - A computer-enabled method for rendering a scene of objects representing physical objects includes projecting a first plurality of rays against a scene and aggregating a second plurality of rays that intersect a bounding volume, wherein the bounding volume encloses an object of the scene, and wherein the second plurality of rays is a portion of the first plurality of rays. The method further includes determining or computing intersections of the second plurality of aggregated rays with the object when the number of the second plurality of aggregated rays exceeds a predetermined value. The method also includes rendering the scene based on the determined intersections of the rays with the object. The second plurality of rays may be aggregated in a bounding volume aggregate data structure for processing. | 02-24-2011 |
| 20110018881 | VARIABLE FRAME RATE RENDERING AND PROJECTION - In rendering a computer-generated animation sequence, pieces of animation corresponding to shots of the computer-generated animation sequence are obtained. Measurements of action in the shots are obtained. Frame rates, which can be different, for the shots are determined based on the determined measurements of action in the shots. The shots are rendered based on the determined frame rates for the shots. The rendered shots with frame rate information indicating the frame rates used in rendering the shots are stored. | 01-27-2011 |
| 20100182326 | RIGGING FOR AN ANIMATED CHARACTER MOVING ALONG A PATH - In computer enabled key frame animation, a method and associated system for rigging a character so as to provide a large range of motion with great fluidity of motion. The rigging uses a character body that moves along a path or freely as needed. The nodes in the body and path are not physically connected but are linked for performing a particular task. This task driven behavior of the nodes which may allow them to re-organize themselves in different re-configurations in order to perform a common duty, implies a variable geometry to the entire dynamic structure. To some regard the nodes can be said to be intelligent. | 07-22-2010 |
| 20090254293 | Rendering of Subsurface Scattering Effects in Translucent Objects - Embodiments are directed to modifying an existing scheme for providing translucent illumination in order to take account of subsurface scattering. The color of a selected point of a translucent object can be determined using existing methods. The existing methods need not take subsurface scattering into account. Then, a contribution to the color at the selected point due to subsurface scattering may be calculated. The contribution due to subsurface scattering may be calculated based on a photon map. Embodiments of the invention also include the use of different types of photon maps. In some embodiments, a standard photon map may be used. In other embodiments, a photon map may be defined in a manner similar to a depth map. Thus, the entries of a photon map may be defined in terms of an angle from a light source and a distance between an object's surface and a light source. | 10-08-2009 |
| 20090207176 | FAST OCEANS AT NEAR INFINITE RESOLUTION - The surface of a body of water can be animated by deconstructing a master wave model into several layer models and then reconstructing the layer models to form an optimized wave model. A wave model is obtained, which describes the wave surfaces in a body of water. The wave model is comprised of a range of wave model frequencies over a given area. A primary layer model, secondary and tertiary layer models are constructed based on portions of the wave model frequencies. An optimized wave model is constructed by combining the primary, secondary, and tertiary layer models. A wave surface point location is determined within the given area. A wave height value is computed for the wave surface point location using the optimized wave model. The wave height value that is associated with the surface point location is stored. | 08-20-2009 |
| 20090128561 | TINTING A SURFACE TO SIMULATE A VISUAL EFFECT IN A COMPUTER GENERATED SCENE - A tinted color value is produced for a surface of an object in a computer generated scene. The surface is illuminated by a light source having a lighting color value associated with the light source. A first reflected color value is calculated for the surface. The first reflected color value is calculated based on an assumption that the surface is illuminated by white light rather than the lighting color value associated with the light source. A desaturated color value is computed using the first reflected color value. A tinted color value is computed by combining the desaturated color value with the lighting color value associated with the light source. The tinted color value is stored. | 05-21-2009 |
| 20090096803 | Shading of translucent objects - Embodiments of the invention relate for rendering translucent objects. According to some embodiments, the color of a pixel of a translucent object that is not directly illuminated by a light source can be determined by decaying the illumination contributed by the light source according to a predefined decay function. The decay function may be, for example, an exponential decay function. The decay function may be evaluated based on an initial illumination contributed by the light source, and a transmittance distance. In some embodiments, the initial color of the pixel is decayed instead of the illumination. Also disclosed is modifying the renderings of different regions of an object which have been rendered using different methods in order to remove sharp contrasts between these regions. | 04-16-2009 |
| 20090091575 | Method and apparatus for animating the dynamics of hair and similar objects - Animating strands (such as long hair), for movies, videos, etc. is accomplished using computer graphics by use of differential algebraic equations. Each strand is subject to simulation by defining its motion path, then evaluating dynamic forces acting on the strand. Collision detection with any objects is performed, and collision response forces are evaluated. Then for each frame a differential algebraic equations solver is invoked to simulate the strands. | 04-09-2009 |
| 20080297519 | ANIMATING HAIR USING POSE CONTROLLERS - The present invention deforms hairs from a reference pose based on one or more of the following: magnet position and/or orientation; local reference space position (e.g., a character's head or scalp); and several profile curves and variables. In one embodiment, after an initial deformation is determined, it is refined in order to simulate collisions, control hair length, and reduce the likelihood of hairs penetrating the surface model. The deformed hairs can be rendered to create a frame. This procedure can be performed multiple times, using different inputs, to create different hair deformations. These different inputs can be generated based on interpolations of existing inputs. Frames created using these deformations can then be displayed in sequence to produce an animation. The invention can be used to animate any tubular or cylindrical structure protruding from a surface. | 12-04-2008 |
| 20080278491 | System and method for rendering computer graphics utilizing a shadow illuminator - Embodiments of the present invention are directed to rendering computer graphics using an augmented direct light model which approximates the effect of indirect light in shadows. More specifically, a shadow illuminator light source is provided for. The shadow illuminator light source is associated with an ordinary, or primary light source and is used to provide illumination in areas which are in shadows with respect to the primary light source. The shadow illuminator provides illumination only to areas which are considered to be in the shadows with respect to the light source the shadow illuminator is associated with. Thus, the shadow illuminator may be used to approximate the effects of indirect light. | 11-13-2008 |
| 20080266308 | Placing skin-attached features on a computer generated character - Skin-attached features are placed on a computer generated character by defining a set of placement points on at least a portion of a skin surface of the computer generated character. For each placement point, a radius is defined for the placement point. For each placement point, a density value is determined for the placement point. The density value is a sum of weighted overlaps with neighboring placement points within the radius of the placement point. The weighted overlaps are functions of the radius of the placement point. The number of placement points in the set of placement points is reduced based on the density values. | 10-30-2008 |
| 20080266292 | Decorating computer generated character with surface-attached features - A computer generated character is decorated with skin-attached features in computer graphics by defining a skin surface of the computer generated character. The skin surface is defined using a set of one or more connected parametric surfaces. Feature locations for the features are placed on the defined skin surface. Guide locations for guides are placed on the defined skin surface. The skin surface is partitioned into a plurality of cells. Each cell has a set of vertices. The set of vertices for each cell is a set of the guide locations. Interpolation weights are determined for the feature locations using the guide locations and the plurality of cells. | 10-30-2008 |
