Patent application number | Description | Published |
20110307571 | HIERARCHICAL DISPLAY-SERVER SYSTEM AND METHOD - A computing system includes a hierarchical set of servers. The hierarchical set includes a master server and one or more slave server. The master server and slave servers communicate with at least one non-intelligent user system over a communications network. The master server has full access to each non-intelligent user system. The master server controls access permissions for each slave server to the non-intelligent user system(s). Each higher level slave server can control access permissions for sub-level slave server(s) to the non-intelligent user system(s). A master or, if permitted access, a slave server, creates a window in a display of the non-intelligent user system, and can provide access to the window to any lower-level slave server to send pixels to fill that window. The pixels can be the graphics output of an application such as a browser or spreadsheet or the pixels can be video (either live or read from a hard drive). In other applications of the servers, the server system can control output on components of the user system, and receive input from components and peripherals of the user system, all via communications over the network. Access to respective non-intelligent user systems is dictated by the master server and each higher level slave server of the hierarchical set of servers. Data representing input of components and peripherals is multiplexed and communicated over the network by the user system, and data representing output of components of the user system is received by the user system over the network and demultiplexed and delivered to the component for output on the user system. | 12-15-2011 |
20120008679 | 4:4:4 COLOR SPACE VIDEO WITH 4:2:0 COLOR SPACE VIDEO ENCODERS AND DECODERS SYSTEMS AND METHODS - A system for communicating video, the video including 4:4:4 color space frames, includes a 4:2:0 video encoder having a 4:4:4 to 4:2:0 color space frame converter and a 4:2:0 video decoder having a 4:2:0 to 4:4:4 color space frame converter, communicatively connected to the 4:2:0 video encoder. The 4:2:0 video encoder, without conversion by the 4:4:4 to 4:2:0 color space converter, communicates the video as a plurality of encoded 4:2:0 color space frames to the decoder. The 4:2:0 video decoder, without conversion by the 4:2:0 to 4:4:4 color space frame converter, saves the video as a plurality of 4:4:4 color space frames in memory. Each of the 4:4:4 color space frames in memory of the decoder device is identical to its corresponding 4:4:4 color space frame of the video at the encoder device. | 01-12-2012 |
20120033738 | VIRTUAL FRAME BUFFER SYSTEM AND METHOD - A method encodes or decodes a frame (also file), such as a video, graphic, media, or other frame or data, representing a real-time graphic output from a frame buffer, output by a video camera, or another file or data. The file includes frames each comprising macroblocks. Reference frame buffers (PFTs), virtual frame buffer tables (VFTBs) of equal number to the PFTs, each VFTB corresponds to a respective PFT, and respective sectors of each PFT for respective macroblocks are created. Frames of the file are encoded/decoded by successive encode/decode of macroblocks. A pointer is created in the VFBT associated with the PFT rather than encoding/decoding any matching macroblock. The pointer and its reference are relied on for each already encoded/decoded macroblock retained in the PFT. Processing, memory, bandwidth and power requirements for encoding or decoding are reduced. | 02-09-2012 |
20130145394 | VIDEO PROVIDING TEXTUAL CONTENT SYSTEM AND METHOD - A system for interacting with a video includes a processor, a video decoder communicatively connected to the processor, a storage communicatively connected to the demultiplexer, the storage contains at least one video file having more than one video frame, at least one of the video frame including at least one respective metadata segment of the video frame, and an input device communicatively connected to the processor. The processor, responsive to the input device, processes the at least one of the video frame including the at least one respective metadata segment, controlling selection of another of the more than one video frame for the video decoder. | 06-06-2013 |
20130166734 | SYSTEM AND METHOD FOR ACCESS TO CONTINOUSLY RUNNING APPLICATION PROGRAMS BY NETWORK CONNECTED END-USER DEVICES - A system for providing access to one or more application device, such as a respective processed application program, is connected to a telecommunications network including at least one user device. The system includes a manager device connected to the respective application device, and the manager device communicatively connects to the respective user device. Each application device includes a respective processing state and a state table of each respective processing state. The manager device updates the respective processing state of the state table for each application device and respective user device. Each user device accesses the manager device to obtain the respective processing state in the state table of the particular application device for the particular user device. User devices can switch communications with the manager device and application device, providing continuing operations of the application device with same processing state. | 06-27-2013 |
20140181190 | HIERARCHICAL DISPLAY-SERVER SYSTEM AND METHOD - A computing system includes a hierarchical set of servers. The hierarchical set includes a master server and one or more slave server. The master server and slave servers communicate with at least one non-intelligent user system over a communications network. The master server has full access to each non-intelligent user system. The master server controls access permissions for each slave server to the non-intelligent user system(s). Each higher level slave server can control access permissions for sub-level slave server(s) to the non-intelligent user system(s). A master or, if permitted access, a slave server, creates a window in a display of the non-intelligent user system, and can provide access to the window to any lower-level slave server to send pixels to fill that window. The pixels can be the graphics output of an application such as a browser or spreadsheet or the pixels can be video (either live or read from a hard drive). In other applications of the servers, the server system can control output on components of the user system, and receive input from components and peripherals of the user system, all via communications over the network. Access to respective non-intelligent user systems is dictated by the master server and each higher level slave server of the hierarchical set of servers. Data representing input of components and peripherals is multiplexed and communicated over the network by the user system, and data representing output of components of the user system is received by the user system over the network and demultiplexed and delivered to the component for output on the user system. | 06-26-2014 |
20150131727 | VIRTUAL FRAME BUFFER SYSTEM AND METHOD - A system for encoding and decoding a frame (also file), such as a video, graphic, media, or other frame or data, representing a real-time graphic output from a frame buffer, output by a video camera, or another file or data. The file includes frames each comprising macroblocks. Reference frame buffers (PFTs), virtual frame buffer tables (VFTBs) of equal number to the PFTs, each VFTB corresponds to a respective PFT, and respective sectors of each PFT for respective macroblocks are created. Frames of the file are encoded/decoded by successive encode/decode of macroblocks. A pointer is created in the VFBT associated with the PFT rather than encoding/decoding any matching macroblock. The pointer and its reference are relied on for each already encoded/decoded macroblock retained in the PFT. Processing, memory, bandwidth and power requirements for encoding or decoding are reduced. | 05-14-2015 |
20160072921 | SYSTEM AND METHOD FOR ACCESS TO CONTINOUSLY RUNNING APPLICATION PROGRAMS BY NETWORK CONNECTED END-USER DEVICES - A system for providing access to one or more application device, such as a respective processed application program, is connected to a telecommunications network including at least one user device. The system includes a manager device connected to the respective application device, and the manager device communicatively connects to the respective user device. Each application device includes a respective processing state and a state table of each respective processing state. The manager device updates the respective processing state of the state table for each application device and respective user device. Each user device accesses the manager device to obtain the respective processing state in the state table of the particular application device for the particular user device. User devices can switch communications with the manager device and application device, providing continuing operations of the application device with same processing state. | 03-10-2016 |