Patent application number | Description | Published |
20090300497 | SYSTEM AND METHOD FOR FOCUSED NAVIGATION WITHIN A USER INTERFACE - A sequence of cards is stored that graphically represents available options within an information system. In response to a single user action, the sequence of cards is successively displayed within a focus area of the user interface. In response to a subsequent user action, the successive display is discontinued to display a particular card representing a selected option. | 12-03-2009 |
20100122290 | SYSTEM AND METHOD FOR FOCUSED NAVIGATION WITHIN A USER INTERFACE - A method for navigation of television program listings within a user interface includes successively displaying a first set of visual cards in a first area of the user interface. Each visual card of the first set of visual cards represents a corresponding broadcast time slot associated with a graphically represented first card characteristic. Selection by a user of a particular visual card of the first set of visual cards is enabled in order to view a television program corresponding to the time slot represented by the selected visual card. In an embodiment, a transition from display of a first visual card of the first set of visual cards to display of a second visual card of the first set of visual cards occurs automatically at the conclusion of a first time period. | 05-13-2010 |
20100318357 | VOICE CONTROL OF MULTIMEDIA CONTENT - Techniques are described for managing various types of content in various ways, such as based on voice commands or other voice-based control instructions provided by a user. In some situations, at least some of the content being managed includes content of a variety of types, such as music and other audio information, photos, images, non-television video information, videogames, Internet Web pages and other data, etc., which may be managed via the voice controls in a variety of ways, such as to allow a user to locate and identify content of potential interest, to schedule recordings of selected content, to manage previously recorded content (e.g., to play or delete the content), to control live television, etc. This abstract is provided to comply with rules requiring it, and is submitted with the intention that it will not be used to interpret or limit the scope or meaning of the claims. | 12-16-2010 |
20100332994 | NETWORK-ACCESSIBLE CONTROL OF ONE OR MORE MEDIA DEVICES - A content management (CM) system is provided to centrally control operation of one or more connected devices by issuing control requests and/or data requests. In some situations the connected device(s) include devices that control presentation of television programming-related content, such as digital video recorder (“DVR”) devices and media center devices, and in other situations may include other types of media devices and/or other electromechanical (“E/M”) devices that may be centrally controlled, such as E/M devices for home automation that may operate independently or in conjunction with the media devices. In some situations, the CM system communicates with the connected devices via a network and using appropriate protocol(s), and may be accessed remotely via a network so as to allow a user to remotely operate the CM system. The CM system may further control searching, identification, selection, and presentation of pieces of media content by the connected device(s). | 12-30-2010 |
Patent application number | Description | Published |
20090246528 | MESOPOROUS ACTIVATED CARBONS - Catalytically activated carbon materials and methods for their preparation are described. The activated carbon materials are engineered to have a controlled porosity distribution that is readily optimized for specific applications using metal-containing nanoparticles as activation catalysts for the mesopores. The activated carbon materials may be used in all manner of devices that contain carbon materials, including but not limited to various electrochemical devices (e.g., capacitors, batteries, fuel cells, and the like), hydrogen storage devices, filtration devices, catalytic substrates, and the like. | 10-01-2009 |
20100126870 | CONTROLLED ELECTRODEPOSITION OF NANOPARTICLES - Deposition of nanoparticles onto carbon surfaces is described. Metal and/or metal oxide ions are deposited on a carbon surface by electrodeposition, such as by immersing a carbon and an anode in a salt bath, and applying a number of electrical pulses having a defined pulse width. The size, coverage density, and metallic composition of the nanoparticles may be affected by the pulse width of the electrical pulses, the number of electrical pulses, and the chemical composition of the salt bath, respectively. The carbon may be anodized before electrodeposition. If the carbon is a carbon precursor, after electrodeposition, the carbon precursor is carbonized to form a carbon. After electrodeposition, the carbon may be activated to form an activated carbon. The nanoparticles may serve as catalysts for activation rugosity of mesoporous carbons. The catalytically activated carbon materials may be used in all manner of devices that contain carbon materials. | 05-27-2010 |
Patent application number | Description | Published |
20080254972 | Methods of forming activated carbons - Enhanced methods for preparing activated carbons have been discovered. In order to form an activated carbon, a carbon precursor material is coated with a phosphorus based chemical solution and physically activated. An activated carbon may also be formed by coating a green carbon precursor with a chemical solution that chemically reacts with carbon, carbonizing the resulting material, and physically activating the material during at least a portion of the carbonizing step. An activated carbon may also be formed by milling a carbon material to a predetermined particle size, then activating the milled particles. In another enhancement, an activated carbon is formed by coating a carbon or carbon precursor with nanoparticles, carbonizing if the carbon is a carbon precursor, then catalytically activating in air and an inert gas, and physically activating in steam or carbon dioxide. An activated carbon may also be formed by physically activating a previously chemically activated carbon. | 10-16-2008 |
20120007027 | ACTIVATED CARBON BLACKS - Activated carbon blacks and the enhanced methods of preparing activated carbon blacks have been discovered. In order to form an activated carbon black, a conductive carbon black is coated with nanoparticles containing metal, and then catalytically activated in steam and an inert gas to form a catalytically activated mesoporous carbon black, where the mass of the catalytically activated carbon black is lower than the mass of the carbon black. The nanoparticles may serve as catalysts for activation rugosity of mesoporous carbon blacks. The catalytically activated carbon black material may be used in all manner of devices that contain carbon materials. | 01-12-2012 |