There is provided a method of predictive prefetching and transmitting from a server to a client device at least one partial visibility event packet and/or deferred visibility event packet including renderable graphics information occluded from a first viewcell and not occluded from a second viewcell, including otherwise renderable graphics information in a client view frustum not previously transmitted to the client device; determining an estimated maximal client view frustum; calculating a subset comprising renderable graphics information that is included in the estimated maximal client view frustum; determining whether the calculated subset has previously been transmitted to the client device by comparing the calculated subset to the stored renderable graphics information previously transmitted, and transmitting the at least one partial visibility event packet and/or deferred visibility event packet to the client device if said packet has not been previously transmitted to the client device.

A tile-based graphics processing pipeline includes rendering circuitry for rendering graphics fragments to generate rendered fragment data. Each graphics fragment has associated with it a set of sampling positions to be rendered. The pipeline also includes a tile buffer configured to store rendered fragment data for sampling positions prior to the rendered fragment data being written out to memory, write out circuitry configured to write a compressed representation of the rendered fragment data for a tile in the tile buffer to memory, and processing circuitry. The processing circuitry identities, based on the writing of rendered fragment data to the tile buffer, any blocks comprising sampling positions within a tile having the same data value associated with each sampling position in the block, and to, when such a block of sampling positions is identified, trigger the write out circuitry to write a compressed representation of the block to the memory.

A system for viewing at a client device a series of three-dimensional virtual views over the Internet of a volume visualization dataset contained on centralized databases employs a transmitter for securely sending volume visualization dataset from a remote location to the centralized database, more than one central data storage medium containing the volume visualization dataset, and a plurality of servers in communication with the centralized databases to create virtual views based on client requests. A resource manager load balances the servers, a security device controls communications between the client device and server and the resource manager and central storage medium. Physically secured sites house the components. A web application accepts at the remote location user requests for a virtual view of the volume visualization dataset, transmits the request to the servers, receives the resulting virtual view from the servers, and displays the resulting virtual view to the remote user.

There is provided an image processing apparatus and an image processing method that are capable of suppressing an increase in loads when a point cloud is generated from a mesh. Point cloud data is generated by positioning points at intersection points between a surface of a mesh and vectors each including, as a start origin, position coordinates corresponding to a specified resolution. For example, intersection determination is performed between the surface of the mesh and each of the vectors, and in a case where the surface and the vector are determined to intersect each other, the coordinates of the intersection point are calculated. The present disclosure can be applied to an image processing apparatus, electronic equipment, an image processing method, a program, or the like.

A data processing apparatus includes rendering circuitry to render an image frame by plural successive rendering stages, each rendering stage having a respective initial rendering stage time allocation, prediction circuitry to predict, in dependence upon rendering of at least one rendering stage of the plural successive rendering stages of a given image frame by the rendering circuitry, whether a total time period for rendering the given image frame by the rendering circuitry will exceed an associated image frame rendering time allocation for the given image frame, and allocation circuitry to vary the respective initial rendering stage time allocation for one or more rendering stages which are not yet completed in respect of the given image frame responsive to the prediction circuitry, so as to shorten the total time period for rendering the given image frame by the rendering circuitry.

Rendering processing of a screen to be displayed is divided and performed between a first device and a second device. The first device generates a first screen, on which some rendering objects of rendering objects to be rendered on the screen to be displayed are rendered, based on information for determining rendered contents of the screen to be displayed. The second device generates a second screen on which rendering objects, excepting the some rendering objects from the rendering objects to be rendered on the screen to be displayed, are rendered. The first device receives the second screen from the second device, and generates the screen to be displayed by compositing the first and second screens.

A method for encoding at least one extra bit in an image compression and decompression system. The method includes accessing an input image, and compressing the input image into a compressed image using an encoder system, wherein said encoding system implements an algorithm for encoding at least one extra bit. The method further includes communicatively transferring the compressed image to a decoding system, and decompressing the compressed image into a resulting uncompressed image that is unaltered from said input image, wherein the algorithm for encoding enables the recovery of the at least one extra bit.

Systems and methods for optimizing a model file include an occlusion reduction process. The occlusion reduction process includes acts of: i) identifying one or more points on a mesh section of a model, ii) determining an occlusion value for each of the one or more points on the surface of the mesh section by performing a ray cast rendering of each of the one or more points, iii) determining whether the one or more occlusion values meet or exceed a predetermined occlusion threshold value, and iv) removing the mesh section from the model. Systems and methods for optimizing a model file may include other optimization processes, such as an instancing step, a selective decimation step, a texture reduction step, and/or a texture formatting step.

The disclosure provides an approach for approximating a fully calculated image sequence from a subset of calculated image data. In one configuration, a rendering application calculates, for each image in the image sequence, a subset of pixels including pixels previously occluded by object(s) in preceding images and pixels whose ages have exceeded a threshold value. The rendering application then approximates the remaining non-calculated image data by interpolating the image data that has been calculated and merges the calculated and approximated image data to obtain the final image sequence. In a particular configuration, entire images may be recalculated at regular intervals to prevent excessive image quality degradation. In another configuration, the recalculation of pixel data may be offset by randomly initializing pixel age values. In yet another configuration, a combination of recalculating entire images and refreshing pixels at offset intervals may be used.

A three-dimensional data encoding method includes: (i) in a first case where a layered structure is generated by classifying three-dimensional points into layers: encoding attribute information for the three-dimensional points based on the layered structure; and generating a bitstream including layer information utilized for the generation of the layered structure; and (ii) in a second case where the three-dimensional points are not classified: encoding attribute information for the three-dimensional points; and generating a bitstream not including the layer information.