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| 20080201736 | Using Triggers with Video for Interactive Content Identification - Access to interactive content at a client device through the use of triggers is disclosed. The client device is coupled to a television communication network and receives an encoded broadcast video stream containing at least one trigger. The client device decodes the encoded broadcast video stream and parses the broadcast video stream for triggers. As the broadcast video stream is parsed, the stream is output to a display device. When a trigger is identified, the client device automatically tunes to an interactive content channel. The client device sends a signal indicative of the trigger through the television communication network to the processing office. The processing office can then use the information contained within the trigger signal to provide content to the client device. The content may be interactive content, static content, or the broadcast program stitched with interactive or static content. The user of the client device can then interact with any interactive content. | 08-21-2008 |
| 20090313674 | PID Obfuscation - A method, system, and computer program product for providing a decoy identifier, such as an MPEG PID, for a non-encrypted component. By obscuring the true identifier, an MPEG receiver that can decode ‘clear channels’ can not locate, and therefore, can not decode and present the true component for the program to a display device. By using the disclosed methodology, computer program product and system a cable television system or other provider of individualized content can broadcast a requested component without needing to encrypt the component. | 12-17-2009 |
| 20090328109 | Providing Television Broadcasts over a Managed Network and Interactive Content over an Unmanaged Network to a Client Device - A client device receives a broadcast content signal containing an interactive identifier over a managed network at a client device. The interactive identifier may be a trigger that is included in a header or embedded within the digital video data. The trigger may have a temporal component, wherein the trigger can expire after a certain period of time. In response to identification of the trigger, the client device sends a user request for interactive content over an unmanaged network. For example, the managed network may be a one-way satellite television network, IP-television network or cable television network and the unmanaged network may be the Internet. The client device switches between receiving data from the managed network to receiving data from the unmanaged network. | 12-31-2009 |
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| 20090319717 | SCALABLE DISTRIBUTED MEMORY AND I/O MULTIPROCESSOR SYSTEMS AND ASSOCIATED METHODS - A multiprocessor system comprises at least one processing module, at least one I/O module, and an interconnect network to connect the at least one processing module with the at least one input/output module. In an example embodiment, the interconnect network comprises at least two bridges to send and receive transactions between the input/output modules and the processing module. The interconnect network further comprises at least two crossbar switches to route the transactions over a high bandwidth switch connection. Using embodiments of the interconnect network allows high bandwidth communication between processing modules and I/O modules. Standard processing module hardware can be used with the interconnect network without modifying the BIOS or the operating system. Furthermore, using the interconnect network of embodiments of the present invention is non-invasive to the processor motherboard. The processor memory bus, clock, and reset logic all remain intact. | 12-24-2009 |
| 20110185101 | SCALABLE DISTRIBUTED MEMORY AND I/O MULTIPROCESSOR SYSTEM - A multiprocessor system comprises at least one processing module, at least one I/O module, and an interconnect network to connect the at least one processing module with the at least one input/output module. In an example embodiment, the interconnect network comprises at least two bridges to send and receive transactions between the input/output modules and the processing module. The interconnect network further comprises at least two crossbar switches to route the transactions over a high bandwidth switch connection. Using embodiments of the interconnect network allows high bandwidth communication between processing modules and I/O modules. Standard processing module hardware can be used with the interconnect network without modifying the BIOS or the operating system. Furthermore, using the interconnect network of embodiments of the present invention is non-invasive to the processor motherboard. The processor memory bus, clock, and reset logic all remain intact. | 07-28-2011 |
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| 20110134138 | Generating Agricultural Information Products Using Remote Sensing - A method for generating index raster files associated with an area of interest (AOI) uses a computer coupled to a remote sensing device via a network, wherein the computer includes an input device, a display, and a memory. The method includes receiving only three image raster files relating to the AOI from the remote sensing device, and receiving at least one set of three spectral control points (SCP) via the input device. The method also includes generating at least two independent vegetation index (VI) raster files and a soil brightness index (SBI) raster file based on the image raster files and the at least one set of three SCPs, storing each of the SBI raster file and the at least two VI raster files into the memory, and selectively displaying at least one of the SBI raster file and the at least two VI raster files. | 06-09-2011 |
| 20110135193 | Generating Agricultural Information Products Using Remote Sensing - A method for generating a supplementary index raster file based on a plurality of primary index raster files that are associated with an area of interest (AOI) uses a computer coupled to a remote sensing device via a network, wherein the computer includes an input device, a display, and a memory. The method includes generating the plurality of primary index raster files including at least two independent vegetation index (VI) raster files and a soil brightness index (SBI) raster file, wherein each primary index raster file includes a plurality of pixel values. The method also includes classifying each pixel value of the at least two VI raster files as one of a leafy material and a non-leafy material, generating a leaf pigmentation index (LPI) raster file based on the classified pixel values, storing the LPI raster file into the memory, and selectively displaying the LPI raster file. | 06-09-2011 |
| 20110135196 | Generating Agricultural Information Products Using Remote Sensing - A method for generating a supplementary index raster file based on a plurality of primary index raster files that are associated with an area of interest (AOI) uses a computer coupled to a remote sensing device via a network, wherein the computer includes an input device, a display, and a memory. The method includes generating the plurality of primary index raster files including at least two independent vegetation index (VI) raster files and a soil brightness index (SBI) raster file, wherein each primary index raster file includes a plurality of pixel values. The method also includes combining the at least two VI raster files to generate a classified soil brightness (CSB) raster file, classifying each pixel value of the CSB raster file into one of a plurality of classes, storing the CSB raster file into the memory, and displaying the CSB raster file. | 06-09-2011 |
| 20110135197 | Generating Agricultural Information Products Using Remote Sensing - A method for generating a raster file based on a plurality of primary index raster files that are associated with an area of interest (AOI) uses a computer coupled to a remote sensing device via a network. The method includes receiving a plurality of AOI raster files via the network, and generating the primary index raster files including a green biomass index (GBI) raster file and a pigmentation index (PGI) raster file. The method also includes generating a plurality of levels for each of the primary index raster files, generating a combination vegetation index (CVIPP) raster file based on a highest level of the GBI and PGI raster files, and generating a corn soybean map (CSM) raster file based on the CVIPP raster file. The method also includes storing the CSM raster file into the memory, and displaying a CSM report based on the CSM raster file. | 06-09-2011 |
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| 20090078145 | System and method for integrated stage separation - A multi-stage vehicle separation system and method that facilitates an active separation on the booster by igniting a small quantity of propellant in the dead volume between the second stage rocket motor nozzle and the booster dome. In the most general embodiment, the invention includes a nozzle; a first fuel propellant disposed within the nozzle; a thermal barrier separating the first and second fuel propellant, an environmental seal protecting the second fuel propellant and an arrangement for activating the first fuel propellant. The nozzle is disposed in an upper stage of a two-stage vehicle. An arrangement such as a V-Band clamp is included for retaining the lower stage of the two-stage vehicle. Electronic commands release the lower stage and activate the first propellant in a timely manner to effectively separate the lower stage from the upper stage. The embedded propellant is activated with an arm fire device. | 03-26-2009 |
| 20110313715 | MULTI CHANNEL ELECTRONIC ACCELERATION SWITCH - An electronic acceleration switch, such as for arming and firing a squib, for instance used in arming a warhead, safe missile air, ground and sea launch separation arming, includes multiple redundancies to provide a fail-safe system that does not have a single-point failure. The switch includes different channels, each of which includes a power subsystem, multiple accelerometers, a pair of controllers, and a switching circuit. The power subsystems of the two channels provide power to multiple accelerometers of each channel. The accelerometers of each channel may include a mix of digital and analog accelerometers. The acceleration sensors can be either one-axis or three-axis sensors. The accelerometers are connected to the controllers of both channels. The controllers provide redundancy for each channel. In addition, the controllers include voting logic that receives inputs from the accelerometers, and determines whether to send arm and enable signals to the multiple squib drivers. | 12-22-2011 |
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| 20080233441 | Multi-function solid oxide fuel cell bundle and method of making the same - A multi-function bundle having all of the basic support functions integrated therein can be used as a basic building block component, for example, in a fuel cell engine. The multi-function bundle is modular, easy to assemble, and able to withstand the physical and thermal shocks encountered in mobile applications. The multi-function bundle utilizes fully distributed fuel and oxidant supply systems which help to reduce temperature gradients throughout the array of fuel cells. The multi-function bundle may be comprised of a plurality of fuel cells, an oxidant supply system, a fuel supply system and a support structure which integrates the fuel cells, oxidant supply system, and fuel supply system into a single unit. The oxidant and fuel supply systems may be fully distributed. The fuel supply system may include one or more fuel feed tube assemblies which allow distributed internal fuel reformation and reduce temperature gradients throughout the array of fuel cells. | 09-25-2008 |
| 20110318658 | MULTI-FUNCTION SOLID OXIDE FUEL CELL BUNDLE AND METHOD OF MAKING THE SAME - A multi-function bundle having all of the basic support functions integrated therein can be used as a basic building block component, for example, in a fuel cell engine. The multi-function bundle is modular, easy to assemble, and able to withstand the physical and thermal shocks encountered in mobile applications. The multi-function bundle utilizes fully distributed fuel and oxidant supply systems which help to reduce temperature gradients throughout the array of fuel cells. The multi-function bundle may be comprised of a plurality of fuel cells, an oxidant supply system, a fuel supply system and a support structure which integrates the fuel cells, oxidant supply system, and fuel supply system into a single unit. The oxidant and fuel supply systems may be fully distributed. The fuel supply system may include one or more fuel feed tube assemblies which allow distributed internal fuel reformation and reduce temperature gradients throughout the array of fuel cells. | 12-29-2011 |
