| Patent application number | Description | Published |
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| 20080281448 | Media Player System, Apparatus, Method and Software - Exemplary apparatus, system, methods, and software are disclosed for media playing. An exemplary media player comprises a user control input; a memory storing a view pointer; a player buffer; a user preference controller adapted to receive input from the user control input and to locate first media; and a second media controller adapted to identify a plurality of second media locations within a first media and to insert selected second media into corresponding locations of the first media for playback. The second media controller is further adapted to insert another selected second media into the first media upon detection of a fast-forward playback discontinuity. The exemplary media player also tracks and reports user identification, an identification of the inserted plurality of second media, an identification of the first media, a date, a time, and any user payment amount for the first media. | 11-13-2008 |
| 20080282305 | Media Distribution System, Apparatus, Method and Software - Exemplary embodiments of the invention provide for media delivery and reporting. Modules are defined using a an extendable mark up language for first media, second media, and system users. A first module includes characteristics and requirements for first media and second media locations within the first media. A second module includes a second media description and requirements. A third module for each user includes second media preferences and strategies. Corresponding second media is determined for a selected user by searching and matching the second media preferences and strategies with the characteristics and requirements of the first and second modules. Selected first media and the corresponding second media are transmitted in the form of either at least two separate media packet streams, or as a combined first and second media packet stream with the corresponding second media embedded in the first media at least some of the determined second media locations. | 11-13-2008 |
| 20080288375 | Media Distribution Reporting System, Apparatus, Method and Software - An exemplary media distribution reporting system is couplable through a network to a plurality of media players. The exemplary system comprises a memory storing a database having media usage data; and a second media reporting server, the second media reporting server coupled to the memory and adapted to receive from each media player, of the plurality of media players, corresponding data comprising a user identification, an identification of first media, an identification of a plurality of second media inserted into the first media, a date, a time, any user payment amount for the first media; the second media reporting server further adapted to combine the corresponding data from the plurality of media players to generate the media usage data; and the second media reporting server further adapted to generate a plurality of media usage reports for allocation of revenue and payment among a plurality of users, first media providers, and second media providers. Exemplary methods and software are also disclosed. | 11-20-2008 |
| 20090134906 | Resilient Integrated Circuit Architecture - The exemplary embodiments provide a resilient integrated circuit. An exemplary IC comprises a plurality of composite circuit elements, a state machine element (SME), and a plurality of communication elements. Each composite circuit element comprises an element interface and a selected circuit element which may vary by element type, and which may be configurable. The state machine element assigns various functions based on element type, such as assigning a first configuration to a first element type, assigning a second configuration to a second element type, and providing a first data link for the corresponding assignments. In response to detection of a fault or failure, the state machine element re-assigns the first configuration to another composite circuit element and creates a second data link for performance of the same function. The assignment, routing, fault detection, and re-assignment and data re-routing can occur in real time for a wide variety of programs and algorithms, providing for the IC to continue the same functioning despite defects which may arise during operation. | 05-28-2009 |
| 20090134907 | Fault Tolerant Integrated Circuit Architecture - The exemplary embodiments provide a resilient integrated circuit. An exemplary IC comprises a plurality of composite circuit elements, a state machine element (SME), and a plurality of communication elements. Each composite circuit element comprises an element interface and a selected circuit element which may vary by element type, and which may be configurable. The state machine element assigns various functions based on element type, such as assigning a first configuration to a first element type, assigning a second configuration to a second element type, and providing a first data link for the corresponding assignments. In response to detection of a fault or failure, the state machine element re-assigns the first configuration to another composite circuit element and creates a second data link for performance of the same function. The assignment, routing, fault detection, and re-assignment and data re-routing can occur in real time for a wide variety of programs and algorithms, providing for the IC to continue the same functioning despite defects which may arise during operation. | 05-28-2009 |
| 20100033207 | Fault Tolerant Integrated Circuit Architecture - The exemplary embodiments provide a resilient integrated circuit. An exemplary IC comprises a plurality of composite circuit elements, a state machine element (SME), and a plurality of communication elements. Each composite circuit element comprises an element interface and a selected circuit element which may vary by element type, and which may be configurable. The state machine element assigns various functions based on element type, such as assigning a first configuration to a first element type, assigning a second configuration to a second element type, and providing a first data link for the corresponding assignments. In response to detection of a fault or failure, the state machine element re-assigns the first configuration to another composite circuit element and creates a second data link for performance of the same function. The assignment, routing, fault detection, and re-assignment and data re-routing can occur in real time for a wide variety of programs and algorithms, providing for the IC to continue the same functioning despite defects which may arise during operation. | 02-11-2010 |
| 20100244889 | Resilient Integrated Circuit Architecture - The exemplary embodiments provide a resilient integrated circuit. An exemplary IC comprises a plurality of composite circuit elements, a state machine element (SME), and a plurality of communication elements. Each composite circuit element comprises an element interface and a selected circuit element which may vary by element type, and which may be configurable. The state machine element assigns various functions based on element type, such as assigning a first configuration to a first element type, assigning a second configuration to a second element type, and providing a first data link for the corresponding assignments. In response to detection of a fault or failure, the state machine element re-assigns the first configuration to another composite circuit element and creates a second data link for performance of the same function. The assignment, routing, fault detection, and re-assignment and data re-routing can occur in real time for a wide variety of programs and algorithms, providing for the IC to continue the same functioning despite defects which may arise during operation. | 09-30-2010 |
| 20100321058 | Fault Tolerant Integrated Circuit Architecture - The exemplary embodiments provide a resilient integrated circuit. An exemplary IC comprises a plurality of composite circuit elements, a state machine element (SME), and a plurality of communication elements. Each composite circuit element comprises an element interface and a selected circuit element which may vary by element type, and which may be configurable. The state machine element assigns various functions based on element type, such as assigning a first configuration to a first element type, assigning a second configuration to a second element type, and providing a first data link for the corresponding assignments. In response to detection of a fault or failure, the state machine element re-assigns the first configuration to another composite circuit element and creates a second data link for performance of the same function. The assignment, routing, fault detection, and re-assignment and data re-routing can occur in real time for a wide variety of programs and algorithms, providing for the IC to continue the same functioning despite defects which may arise during operation. | 12-23-2010 |
