| Patent application number | Description | Published |
|---|
| 20090303110 | CELESTIAL BODY MAPPING SYSTEMS AND METHODS - Systems and methods for mapping a surface of a celestial body containing objects and terrain are provided. One system includes a Synthetic Aperture RADAR (SAR) module configured to capture a high-resolution image of the terrain of at least a portion of the surface and a map module configured to store map data representing the portion of the surface. The system also includes a fusion module configured to combine the high-resolution image and the map data to generate a high-resolution map of the portion of the surface. A method includes orbiting the celestial body, capturing, via the SAR module, a high-resolution image during each orbit, and fusing the captured high-resolution image with a low-resolution map of the surface to generate a high-resolution map of the surface. A computer-readable medium for storing instructions that cause a processor to perform the above method is also provided. | 12-10-2009 |
| 20100017026 | ROBOTIC SYSTEM WITH SIMULATION AND MISSION PARTITIONS - A robot for accomplishing a mission in a physical environment includes a body; and an operating system coupled to the body and configured to operate the body. The operating system is divided into a plurality of partitions, which includes a simulation partition configured to receive inputs and simulate the mission in a simulated environment corresponding to the physical environment based on the inputs to produce a simulated result, and a mission partition configured to receive the simulated result and determine actions to accomplish the mission based on the simulated result. | 01-21-2010 |
| 20100082323 | DETERMINISTIC REMOTE INTERFACE UNIT EMULATOR - Devices systems and methods are provided for providing a deterministic remote interface unit (RIU) based on a finite state machine. The RIU emulator uses a sequence controller that is configured to receive a synchronization input and to execute a fixed list of unconditional commands in an invariable order of execution based solely upon the synchronization input. The RIU emulator also uses pre-defined or pre-certified data structures that are specific to one or more interface devices to successfully execute the at least one unconditional command of the plurality when encountered in the invariable order. As such, peripheral devices may be added, removed or updated without recertification by merely inserting pre-certified data structures into memory or deleting them. | 04-01-2010 |
| 20100183016 | SYSTEM AND METHOD FOR A CROSS CHANNEL DATA LINK - A node comprises a host computer operable to execute application tasks and to transmit data; a local time-triggered Ethernet switch operable to enforce temporal constraints on time-triggered data; and a time-triggered Ethernet controller coupled to the local time-triggered Ethernet switch and operable to be coupled to a time-triggered Ethernet switch in each of a plurality of other control nodes. The time-triggered Ethernet controller is further operable to communicate with the plurality of other control nodes to synchronize a local clock to establish a global time base and to provide a signal to the host computer for the host computer to synchronize execution of the application tasks by the host computer with the execution of application tasks in each of the plurality of other control nodes | 07-22-2010 |
| 20100275065 | DUAL-DUAL LOCKSTEP PROCESSOR ASSEMBLIES AND MODULES - Processor assemblies and modules are provided. One processor assembly includes first and second processors, and first and second input/output (I/O) interfaces coupled to the first and second processors. The first and/or second I/O interfaces are configured to compare outputs of the first and second processors, and render the first and second processors inactive if the outputs are different. One processor module includes first and second buses coupled to first and second processor assemblies. The first processor assembly includes first and second processors coupled to first and second I/O interfaces, wherein the first I/O interface is coupled to the first bus and the second I/O interface is coupled to the second bus. The second processor assembly includes third and fourth processors coupled to third and fourth I/O interfaces, wherein the third I/O interface is coupled to the first bus and the fourth I/O interface is coupled to the second bus. | 10-28-2010 |
| 20100306435 | RECONFIGURABLE VIRTUAL BACKPLANE SYSTEMS AND METHODS - Reconfigurable virtual backplane systems and methods are provided. One virtual backplane system includes a bus, and first and second line cards coupled to the bus. Each line card includes a processor including a memory storing an array of configuration tables. Each configuration table stores a listing of processes to be transmitted to or received from the communication bus, wherein a first configuration table is selected from the first line card upon the occurrence of a first event and a second configuration table is selected from the second line card upon the occurrence of a second event. One method includes connecting first and second buses in first and second systems, respectively, to form a bus for a new system. The method further includes detecting the connection of the first and second buses, and reconfiguring the first and second systems to operate as the new system in response to detecting the connection. | 12-02-2010 |
| 20100324756 | SYSTEMS AND METHODS FOR VALIDATING PREDETERMINED EVENTS IN RECONFIGURABLE CONTROL SYSTEMS - Systems and methods for validating predetermined events in reconfigurable control systems are provided. One method includes receiving, by a plurality of redundant processors operating in a first mode, a notice from two of three redundant sensors that the predetermined event occurred and reconfiguring the plurality of redundant processors to operate in a second mode in response to the notice. Another method includes receiving a first notice that one or more sensors detected that a first vehicle is coupled to a second vehicle at a primary control system and a secondary control system and reconfiguring the primary control system and the secondary control system to operate in another mode at substantially the same time in response to the notice. | 12-23-2010 |
