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| 20100095218 | USER INTERFACE MONITORING IN A MULTIMEDIA CONTENT DISTRIBUTION NETWORK - A method for controlling a displayed user interface for accessing content provided by a multimedia content delivery network is disclosed. A plurality of user interface events, representing user actions during operation of the user interface, are recorded for one or more end users. The recorded user interface events include user actions that do not result in a command or transaction received by the service provider of the network. The recorded user interface events may be stored in a data warehouse and mined for business purposes. | 04-15-2010 |
| 20100125865 | System and Method of Monitoring Blackout Events - Systems and methods of monitoring blackout events are provided. A particular method includes receiving a server blackout event associated with a scheduled blackout of a first media service. The method also includes receiving at least one client blackout event from at least one set top box (STB) affected by the scheduled blackout. For example, the server blackout event and the client blackout event(s) may be received at a subscriber event transmission interface (SETI). The method further includes storing the server blackout event and the client blackout event(s) at a data warehouse. | 05-20-2010 |
| 20100146565 | System and Method for Verifying Deployment of an Internet Protocol Television Video on Demand Asset - A system includes a subscriber event transmission interface and an enterprise data warehouse. The subscriber event transmission interface is configured to collect first video-on-demand asset metadata from a first video head-end office. The enterprise data warehouse is in communication with the subscriber event transmission interface. The enterprise data warehouse is configured to store a list of a video-on-demand assets deployed to the video head-end office based on the first video-on-demand asset metadata. | 06-10-2010 |
| 20110093907 | System and Method for Monitoring Whole Home Digital Video Recorder Usage for Internet Protocol Television - A method for monitoring a bandwidth configuration for a plurality of customer premises connected to a video head-end office in an Internet Protocol television network is disclosed. The bandwidth configuration is received for each of the plurality of customer premises. The bandwidth configuration is stored for each of the plurality of customer premises in a memory of a first server. A data file is received from the video head-end office. The data file indicates that a set-top box device located at one of the customer premises has requested a video stream that would exceed a first number of video streams available to the one of the customer premises and that would exceed a first bandwidth currently available between the video head-end office and the one of the customer premises. The data file is stored in the memory of the first server. | 04-21-2011 |
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| 20110188411 | SYSTEM AND METHOD FOR PACKETIZED EMERGENCY MESSAGES - A system and method allows for providing emergency service, whether the service is full or limited, to wireless devices using non-IMS packet traffic based methods or Access Stratum/Non-Access Stratum (AS/NAS) signalling based methods. To do so, a system and method for utilizing a Packetized Emergency Message (PEM) is provided. | 08-04-2011 |
| 20110188416 | SYSTEM AND METHOD FOR PACKETIZED EMERGENCY MESSAGES - A system and method allows for providing emergency service, whether the service is full or limited, to wireless devices using non-IMS packet traffic based methods or Access Stratum/Non-Access Stratum (AS/NAS) signalling based methods. To do so, a system and method for utilizing a Packetized Emergency Message (PEM) is provided. | 08-04-2011 |
| 20110189971 | SYSTEM AND METHOD FOR PACKETIZED EMERGENCY MESSAGES - A system and method allows for providing emergency service, whether the service is full or limited, to wireless devices using non-IMS packet traffic based methods or Access Stratum/Non-Access Stratum (AS/NAS) signalling based methods. To do so, a system and method for utilizing a Packetized Emergency Message (PEM) is provided. | 08-04-2011 |
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| 20110142393 | LOW-COST FAST VARIABLE OPTICAL ATTENUATOR FOR OPTICAL WAVELENGTH TRACKING - Variable optical attenuator (VOA) formed by disposing upon a substrate a waveguide, a p-type region and an n-type region about the waveguide, and an epi-silicon region disposed upon the waveguide, the VOA responsive to a bias current to controllably inject carriers into the waveguide to attenuate thereby optical signal propagating through the waveguide. | 06-16-2011 |
| 20120087623 | OPTICAL ASSEMBLY FOR A WDM RECEIVER OR TRANSMITTER - An optical assembly for a wavelength-division-multiplexing (WDM) transmitter or receiver that lends itself to cost-effective production-line manufacturing. In one embodiment, the fiber optic assembly has a vernier-type arrayed waveguide grating (AWG) with five optical ports at one side and fourteen optical ports at another side. Ten of the fourteen ports are optically coupled to ten photo-detectors or lasers. A selected one of the five ports is optically coupled to an external optical fiber. The coupling optics and the mounting hardware for the AWG are designed to accommodate, with few relatively straightforward adjustments performed on the production line, any configuration of the AWG in which any consecutive ten of the fourteen ports are optically coupled to the ten photo-detectors or lasers. | 04-12-2012 |
| 20120087678 | OPTO-ELECTRONIC ASSEMBLY FOR A LINE CARD - In one embodiment, the opto-electronic assembly is a hybrid integrated circuit having an array of avalanche photodiodes (APDs) that are electrically coupled to a corresponding array of transimpedance amplifiers (TIAs), with both the APDs and TIAs being mounted on a common ceramic substrate. The opto-electronic assembly further has an optical subassembly comprising an arrayed waveguide grating (AWG) and an array of turning mirrors, both attached to a temperature-control unit in a side-by-side arrangement and flip-chip mounted on the substrate over the APDs. The opto-electronic assembly employs a silicon-based submount inserted between the APDs and the substrate to accommodate the height difference between the APDs and the TIAs. The submount advantageously enables the placement of APDs in relatively close proximity to the turning mirrors while providing good control of the APD's tilt and offset distance with respect to the substrate. The temperature-control unit enables independent temperature control of the AWG and of the array of turning mirrors, which helps to achieve good optical-coupling efficiency between the AWG and the APDs even when the turning mirrors have a relatively small size. | 04-12-2012 |
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| 20090154487 | MANAGING COMMUNICATIONS OVER A SHARED MEDIUM - Communicating between stations over a shared medium includes: monitoring the shared medium for signals received at a first station that is identified with a local network; storing information at the first station that represents characteristics of the signals received at the first station associated with capacity of the shared medium; monitoring the shared medium for signals received at a second station that is identified with the same local network as the first station; storing information at the second station that represents characteristics of the signals received at the second station associated with capacity of the shared medium; and determining whether a stream of data is allowed to be transmitted over the shared medium between the first station and the second station based on at least one of the stored information from the first station and the stored information from the second station. | 06-18-2009 |
| 20100074243 | MANAGING COEXISTENCE AMONG SIGNALING PROTOCOLS ON A SHARED MEDIUM - A method is described for communicating among multiple devices over a shared communication medium. The method includes, in a schedule among multiple subsets of the devices that includes at least one respective time slot for each subset, transmitting from at least one of the devices in a given subset a presence signal associated with the given subset within a time slot for the given subset. A presence signal associated with a given subset is configured to indicate the presence of at least one device in the given subset. The method also includes communicating among devices in a given subset based on presence signals detected from one or more devices in at least one different subset. | 03-25-2010 |
| 20110128973 | MEDIUM ACCESS CONTROL LAYER THAT ENCAPSULATES DATA FROM A PLURALITY OF RECEIVED DATA UNITS INTO A PLURALITY OF INDEPENDENTLY TRANSMITTABLE BLOCKS - A method of operating in a network in which a plurality of stations communicate over a shared medium, comprising providing a physical layer (e.g., PHY) for handling physical communication over the shared medium; providing a high level layer (e.g., PAL) that receives data from the station and supplies high level data units (e.g., MSDUs) for transmission over the medium; providing a MAC layer that receives the high level data units from the high level layer and supplies low level data units (e.g., MPDUs) to the physical layer; at the MAC layer, encapsulating content from a plurality of the high level data units; dividing the encapsulated content into a plurality of pieces (e.g., segments) with each piece capable of being independently retransmitted; and supplying low level data units containing one or more of the plurality of pieces. | 06-02-2011 |
