Patent application number | Description | Published |
20120212575 | GATEWAY/STB INTERACTING WITH CLOUD SERVER THAT PERFORMS HIGH END VIDEO PROCESSING - A gateway includes a communications interface and processing circuitry and establishes communications with at least one service provider device and with a serviced client device. The gateway receives video on demand instructions from the serviced client device and transmits the video on demand instructions to the cloud server. The gateway then receives streamed video content from the cloud server, the streamed video content video processed based upon the video on demand instructions and, during some operations the streamed video content having video on demand icons formed therein. The gateway then transmits the streamed video content to the serviced client device. The advanced video processing instructions may be three-dimensional processing instruction, texturing, or another type of advanced video processing. The cloud server may also service a Video on Demand session for the serviced client device. | 08-23-2012 |
20120215833 | GATEWAY/SET TOP BOX IMAGE MERGING FOR DELIVERY TO SERVICED CLIENT DEVICE - A gateway includes at least one communications interface and processing circuitry and establishes communications with at least one service provider device and with a serviced client device. The gateway receives serviced client device display structure instructions, first streamed content from a service provider device, and second streamed content from a cloud server, the second streamed content based upon an Internet session hosted by the cloud server. Based upon the serviced client device display structure instructions, the gateway combines the first streamed content with the second streamed content to form merged streamed content and transmits the merged streamed content to the serviced client device. In another operation the gateway forwards the first streamed content to a first client device and the second streamed content to a second client device based upon the serviced client device display structure instructions. | 08-23-2012 |
20120215834 | CLOUD SERVER/THIN CLIENT/GATEWAY SELECTIVE BROWSER INSTANTIATION - A gateway having at least one communications interface and processing circuitry establishes communications with at least one service provider device and at least one serviced client device. The gateway then determines that a serviced client device is to establish an Internet browsing session. Based upon characteristics of the serviced client device, the gateway determines where to instantiate a web browser to service the Internet browsing session. Based upon the determination, in a first operation, instantiates the web browser to service the Internet browsing session at the gateway or client device. In a second operation, the gateway instantiates the web browser to service the Internet browsing session at a service provider server. In other operations, the gateway may determine to instantiate a browser for a first client device at a cloud server and to instantiate a browser for a second client device either locally or at the second client device. | 08-23-2012 |
20120216232 | SET TOP BOX VIDEO STREAM MERGING/PASS THROUGH - A gateway includes a communications interface and processing circuitry and establishes communications with at least one service provider device and with a serviced client device. The gateway receives serviced client device display structure instructions from a cloud server. The gateway then receives first streamed content from the cloud server, the first streamed content comprising images of an Internet session hosted by the cloud server and having a video program hole formed therein. The gateway receives second streamed content from the cloud server, the second streamed content comprising a video program corresponding to the video program hole of the first streamed content. Based upon the serviced client device display structure instructions, the gateway combines the first streamed content with the second streamed content to form merged streamed content and transmits the merged streamed content to the serviced client device. The client device may alternately receive and merge the video streams. | 08-23-2012 |
20130271319 | METHOD AND SYSTEM FOR AIMING AND ALIGNING SELF-INSTALLED BROADCAST SIGNAL RECEIVERS - A signal reception assembly may be installed by a user, and configured to achieve optimal alignment (e.g., perfect or near-perfect alignment) with a particular signal source. The signal reception assembly may receive signals from the signal source, and signal related information may be determined based on processing of the received signals, with the signal related data comprising parameters pertinent to configuring reception of signals from the particular signal source. An electronic device may be coupled to the signal reception assembly, and may be utilized to obtain and/or determine positioning information which may correlate with the positing of the signal reception assembly. Adjustments to aiming and/or alignment of the signal reception assembly, relative to the particular signal source, may be determined based on the positioning information and the signal related data to achieve the optimal alignment. | 10-17-2013 |
Patent application number | Description | Published |
20130268978 | METHOD AND SYSTEM FOR FULL SPECTRUM CAPTURE FOR SATELLITE AND TERRESTRIAL APPLICATIONS - A multiband receiver comprising an integrated diversity antenna system is operable to receive satellite and terrestrial television. The multiband receiver captures spectrum comprising satellite television channels and/or terrestrial television channels and demodulate the satellite television channels and/or the terrestrial television channels. The diversity antenna system is integrated on a board or substrate within the multiband receiver. The multiband receiver discriminates between satellite television signals and non-satellite television signals in the captured spectrum and also discriminates between the terrestrial television signals and non-terrestrial television signals in the captured spectrum. The multiband receiver generates output satellite television channel content from the demodulated satellite television channels and also generates output terrestrial television channel content from the demodulated terrestrial television channels. The multiband receiver packetizes the generated output satellite and/or terrestrial television channel content. The generated output satellite and/or terrestrial television channel content is communicated to one or more mobile communication devices. | 10-10-2013 |
20130271320 | METHOD AND SYSTEM FOR A MOBILE APPLICATION (APP) THAT ASSISTS WITH AIMING OR ALIGNING A SATELLITE DISH OR ANTENNA - An app running on a communication device determines a current position of an antenna, which is to be aligned with a transmitter. The app determines a direction in which the antenna should be oriented so that the antenna is aligned with the transmitter when the communication device is placed by the antenna. The app may generate, based on the determined direction, one or more cues to enable alignment of the antenna so that the current position or a newly determined current position of the antenna is aligned with the determined position of the transmitter. The cues may include audible, visual and/or vibration cues. The app may acquire information from one or more sensors, which are located within the communication device and/or integrated within the antenna. The acquired information may be utilized to determine the current position and/or a newly determined current position of the antenna. | 10-17-2013 |
20130272227 | METHOD AND SYSTEM FOR CHANNEL ALLOCATION AND BANDWIDTH MANAGEMENT IN A WIFI DEVICE THAT UTILIZES FULL SPECTRUM CAPTURE - A WiFi device, which utilizes full spectrum capture, captures signals over a wide spectrum including one or more WiFi frequency bands and extracts one or more WiFi channels from the captured signals. The AP analyzes the extracted WiFi channels and aggregates a plurality of blocks of WiFi channels to create one or more aggregated WiFi channels based on the analysis. The WiFi frequency bands comprise 2.4 GHz and 5 GHz WiFi frequency bands. The AP determines one or more characteristics of the extracted WiFi channels based on the analysis. The determined characteristics comprise noise, interference, fading and blocker information. The AP generates a channel map comprising at least the extracted one or more WiFi channels based on the determined characteristics. The AP dynamically and/or adaptively senses the extracted one or more WiFi channels and updates the determined characteristics of the extracted WiFi channels. | 10-17-2013 |
20130272228 | METHOD AND SYSTEM FOR WIFI COMMUNICATION UTILIZING FULL SPECTRUM CAPTURE - A single receiver is operable to utilize full spectrum capture to capture signals over a wide spectrum comprising a plurality of WiFi frequency bands, extract one or more WiFi channels from said captured signals and aggregate a plurality of blocks of said WiFi channels to create one or more aggregated WiFi channels. The WiFi frequency bands include 2.4 GHz and 5 GHz WiFi frequency bands. A plurality of blocks of the WiFi channels may be aggregated from contiguous blocks of spectrum and/or non-contiguous blocks of spectrum in one or more of said plurality of WiFi frequency bands. One or more non-WiFi channels may be filtered out from the captured signals. One or more aggregated WiFi channels may be assigned to one or more WiFi enabled communication devices. At least a portion of the one or more aggregated WiFi channels may be dynamically assigned to one or more other WiFi enabled communication devices. | 10-17-2013 |
20130273956 | METHOD AND SYSTEM FOR WIFI ACCESS POINT UTILIZING FULL SPECTRUM CAPTURE - A WiFi access point (AP) includes a receive radio frequency (RF) front end and a baseband processor that controls operation of the receive RF front end. The RF front end captures signals over a wide spectrum that includes a plurality of WiFi frequency bands (2.4 GHz and 5 GHz) and channelizes one or more WiFi channels from the captured signals. The baseband processor combines a plurality of blocks of WiFi channels to create one or more aggregated WiFi channels. The receive RF front end may be integrated on a first integrated circuit and the baseband processor may be integrated on a second integrated circuit. The first and second integrated circuits may be integrated on a single package. The RF front end and the baseband processor may be integrated on a single integrated circuit. The WiFi access point comprises a routing module that is communicatively coupled to the baseband processor. | 10-17-2013 |
20150089549 | METHOD AND SYSTEM FOR FULL SPECTRUM CAPTURE FOR SATELLITE AND TERRESTRIAL APPLICATIONS - A multiband receiver comprising an integrated diversity antenna system is operable to receive satellite and terrestrial television. The multiband receiver captures spectrum comprising satellite television channels and/or terrestrial television channels and demodulate the satellite television channels and/or the terrestrial television channels. The diversity antenna system is integrated on a board or substrate within the multiband receiver. The multiband receiver discriminates between satellite television signals and non-satellite television signals in the captured spectrum and also discriminates between the terrestrial television signals and non-terrestrial television signals in the captured spectrum. The multiband receiver generates output satellite television channel content from the demodulated satellite television channels and also generates output terrestrial television channel content from the demodulated terrestrial television channels. The multiband receiver packetizes the generated output satellite and/or terrestrial television channel content. The generated output satellite and/or terrestrial television channel content is communicated to one or more mobile communication devices. | 03-26-2015 |