Patent application number | Description | Published |
20090138141 | VEHICLE HEALTH MONITORING SYSTEM ARCHITECTURE FOR DIAGNOSTICS AND PROGNOSTICS DISCLOSURE - A health monitoring system for a vehicle system includes an operational support system including a plurality of managers and a decision support module. Each manager corresponds to a different sub-system of the vehicle system, and comprises a plurality of reasoners and a fusion block. Each reasoner is configured to obtain data and provide preliminary output regarding a different component of the sub-system based on the data. The fusion block is coupled to the plurality of reasoners, and is configured to receive the preliminary output and generating manager output based on the preliminary output. The decision support module is coupled to the plurality of managers, and is configured to receive the manager output and provide a decision support output based on the manager output. | 05-28-2009 |
20090138423 | VEHICLE HEALTH MONITORING REASONER ARCHITECTURE FOR DIAGNOSTICS AND PROGNOSTICS - A health monitoring system for a vehicle system includes a plurality of managers and a decision support module. Each manager corresponds to a different sub-system of the vehicle system, and generates manager output pertaining to the sub-system based at least in part on an intermediate output. Each manager comprises a plurality of reasoners. Each reasoner corresponds to a different component of the sub-system, and comprises a plurality of modules and a reasoner fusion block. Each module obtains data regarding a different aspect of the component and generates a preliminary output based on the data. The reasoner fusion block is coupled to the plurality of modules, receives the preliminary output, and generates the intermediate output based on the preliminary output. The decision support module is coupled to the plurality of managers, receives the manager output therefrom, and provides a decision support output based on the manager output. | 05-28-2009 |
20090326758 | WEBSERVICE ARCHITECTURE FOR VEHICLE HEALTH MAINTENANCE - A webservice architecture for vehicle health maintenance is provided. A core module is in communication with a webservice provider, a webservice consumer, and a webservice registry over an internet protocol (IP) backbone. The core module is adapted for registering and discovering the webservice provider using a universal description, discovery, and integration (UDDI) communications open standard, receiving a request from the webservice provider using a simple object access protocol (SOAP), the webservice provider accepting the request from the webservice consumer, and extracting a data structure based on the webservice request in a format according to the webservice registry using a web services description language (WDSL). | 12-31-2009 |
20090327325 | META MODELING IN DECISION SUPPORT SYSTEM - A method, system, and computer program product for providing troubleshooting data for reported fault conditions on equipment is provided. An engineering model is configured for the equipment. The engineering model includes at least one failure scenario and an associated symptom. The engineering model is stored in an equipment model database. A meta model representative of at least one relationship between the engineering model and a reported fault condition for the equipment is instantiated. A user input for the reported fault condition is stored in a decision support system (DSS) database. The DSS database forms a wrapper over the equipment model database based on the user input. The meta model is further instantiated using user input data from the DSS database. An optimal troubleshooting procedure for the equipment is determined based on the meta model as instantiated. | 12-31-2009 |
20090327796 | SERVICE ORIENTED ARCHITECTURE BASED DECISION SUPPORT SYSTEM - A service oriented architecture (SOA) based decision support system for a vehicle is provided. A database is provided for storing a workplan of the vehicle. A webservice provider is in communication with the database for integrating applications using a variety of open standards of an internet protocol backbone. A core is connected between the database and webservice provider. The core is adapted for analyzing fault conditions, creating the workplan to overcome the fault conditions, and generating a response for a webservice request. An enterprise service bus is connected to the webservice provider for providing loose connectivity between webservice enabled functions, a service customer, and the core. | 12-31-2009 |
20100161169 | VEHICLE HEALTH MONITORING ARCHITECTURE FOR DIAGNOSTICS AND PROGNOSTICS AS A SERVICE IN AN E-ENTERPRISE - A health monitoring system for a vehicle system includes a plurality of diagnostics systems and a bus. Each of the plurality of diagnostics and prognostics systems corresponding to a different sub-system of the vehicle system and configured to at least facilitate generating diagnostic and prognostic system output pertaining to the sub-system based at least in part on data, each of the plurality of diagnostics and prognostics systems comprises a diagnostics component comprising an analytics framework and a core. The analytics framework is configured to receive formatted data and to generate diagnostic determinations based at least in part thereon. The core is coupled to the analytics framework, and is configured to transform data into formatted data and provide the formatted data to the analytics framework. The bus is coupled to the plurality of diagnostics and prognostics systems, and is configured to at least facilitate providing the data thereto. | 06-24-2010 |
20100161678 | METHOD AND APPARATUS FOR UTILIZING MATLAB FUNCTIONALITY IN JAVA-ENABLED ENVIRONMENT - A Java-MATLAB bridge is provided for enabling utilization of MATLAB® functionality in an enterprise environment. The Java-MATLAB bridge includes a Java® wrapper and a MATLAB wrapper. The MATLAB wrapper is coupled to the Java wrapper and the Java wrapper provides an entry point for invoking the MATLAB functionality in the enterprise environment. | 06-24-2010 |
20100332715 | VEHICLE SYSTEM MONITORING AND COMMUNICATIONS ARCHITECTURE - Systems, methods and devices are provided that allow more efficient transfer and processing of sensor information in a hierarchical data system. The system provides for a plurality of component area managers (CAM), each of the CAMS being in operable communication with at least one of a plurality of transducers that monitors a phenomena of a component and in operable communication with a data bus. A CAM comprises a processor in operable communication with the at least one transducer of the plurality of transducers, wherein the first processor is configured to record data generated by the at least one transducer of the plurality of transducers, to reduce the recorded data, to place the reduced data on the data bus. The system also includes a transducer selection module controlled by the first processor by which the first processor selects one of the plurality of transducers to record and a rolling buffer in operable communication with the first processor and in operable communication with the at least one transducer by which to record the data generated by the at least one transducer of the plurality in a first-in-first-out manner. | 12-30-2010 |
20130066924 | METHOD AND APPARATUS FOR UTILIZING MATLAB FUNCTIONALITY IN JAVA-ENABLED ENVIRONMENT - A Java-MATLAB bridge is provided for enabling utilization of MATLAB® functionality in an enterprise environment. The Java-MATLAB bridge includes a Java® wrapper and a MATLAB wrapper. The MATLAB wrapper is coupled to the Java wrapper and the Java wrapper provides an entry point for invoking the MATLAB functionality in the enterprise environment. | 03-14-2013 |