IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0016601
(2011-01-28)
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등록번호 |
US-8751777
(2014-06-10)
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발명자
/ 주소 |
- Felke, Tim
- Bell, Douglas Allen
- Bishop, Douglas
- Vanderzweep, Jeff
- Aljanabi, Issa
|
출원인 / 주소 |
- Honeywell International Inc.
|
대리인 / 주소 |
Ingrassia Fisher & Lorenz, P.C.
|
인용정보 |
피인용 횟수 :
0 인용 특허 :
72 |
초록
▼
Methods and reconfigurable systems are provided for monitoring the health of a complex system. The reconfigurable system comprises a plurality of standardized executable application modules containing instructions to perform one of a plurality of different standardized functions. The system further
Methods and reconfigurable systems are provided for monitoring the health of a complex system. The reconfigurable system comprises a plurality of standardized executable application modules containing instructions to perform one of a plurality of different standardized functions. The system further comprises a plurality of computing nodes arranged in a hierarchical structure comprising one or more layers of computing nodes. Each computing node of the plurality runs a host application and a workflow service module, each computing node thereby being configured by a configuration file that directs the execution of any of the standardized executable application modules in a cooperative fashion by the host application via the workflow service module. The system also comprises a loading means for populating each computing node with one or more standardized executable application modules of the plurality, a communication means, and a configuration means for programming the populated standardized executable application modules.
대표청구항
▼
1. A reconfigurable system for monitoring the health of a complex system comprising: a plurality of standardized executable application modules (SEAMs), each SEAM containing instructions to perform only one of a plurality of different standardized functions, wherein a SEAM is a basic un-modifiable m
1. A reconfigurable system for monitoring the health of a complex system comprising: a plurality of standardized executable application modules (SEAMs), each SEAM containing instructions to perform only one of a plurality of different standardized functions, wherein a SEAM is a basic un-modifiable modular software object that is directed to complete specific tasks after being configured by a configuration file;a plurality of computing nodes arranged in a hierarchical structure comprising two or more layers of the computing nodes, wherein each computing node executes one or more selected SEAMs of the plurality of SEAMs, and wherein each computing node includes a workflow service module and a loaded configuration file, each workflow service module controls execution of the selected SEAM as directed by the loaded configuration file to perform a specialized function for health monitoring. 2. The reconfigurable system of claim 1, wherein each loaded configuration file includes a plurality of logic sequences that are accessed by the workflow service module to control execution of the selected standardized executable applications. 3. The reconfigurable system of claim 2, wherein each loaded configuration file specifies data acted on for each of the plurality of logic sequences. 4. The reconfigurable system of claim 3, wherein each of the plurality of logic sequences is implemented as a state machine. 5. The reconfigurable system of claim 1, wherein the loaded configuration file for each of the plurality of computing nodes specifies interactions between the plurality of computing nodes. 6. The reconfigurable system of claim 1, wherein each loaded configuration file specifies a health monitoring algorithm performed by the selected SEAM. 7. The reconfigurable system of claim 6, wherein each loaded configuration file specifies how to respond to determinations by the health monitoring algorithm. 8. The reconfigurable system of claim 1, wherein each loaded configuration file is generated from a model of the complex system. 9. The reconfigurable system of claim 8, wherein each the loaded configuration file is generated from a model of complex system using a model based configuration means. 10. The reconfigurable system of claim 1, further comprising a communication interface integrated into each computing node, each communication interface is configured to symmetrically connect its associated computing node to every other computing node and to a model based configuration means via a communication system. 11. The reconfigurable system of claim 10, wherein the communication interface comprises a customized adapter. 12. The reconfigurable system of claim 10, wherein each workflow service module directs intra-nodal communication between directed SEAM and between a directed SEAM and another node via the communication interface. 13. The reconfigurable system of claim 1, each loaded configuration file activates and deactivates any of the directed SEAM residing in any of the computing nodes of the plurality of computing nodes. 14. The reconfigurable system of claim 1, wherein the loaded configuration files control a relocation of any specific functionality residing in one computing node to another computing node. 15. A method for configuring a system monitoring the health of a complex system, comprising: establishing a plurality of computing nodes arranged in a hierarchical structure that comprises at least two layers of computing nodes, each computing node is associated with a component of the complex system;establishing a library containing a plurality of standardized executable applications (SEAMS), wherein a SEAM is a basic un-modifiable modular software object that is directed to complete specific tasks after being configured by a configuration file;establishing one or more configuration files within a database, each configuration file is associated with one of the plurality of computing nodes of the hierarchical structure;populating each computing node of the hierarchical structure with one or more selected SEAM from the library;modifying each configuration file with data that directs specific functionality into the one or more SEAM populating its associated computing node in the hierarchical structure; andinstalling each of the configuration files into its associated computing node thereby directing specific functionality to each of the one or more SEAM. 16. The method of claim 15, wherein at least one computing node is in direct operable communication with at least one data source and each computing node is in operable communication with a database via a communications system. 17. The method of claim 15, wherein each SEAM in the library is supports a standardized functionality. 18. The method of claim 15 further comprising, populating each computing node with a workflow service module, the workflow service module is configured to coordinates the specific functionality of each SEAM within a computing node with a specific functionality of another SEAM resident within the same computing node. 19. A method for reconfiguring a system monitoring the health of a complex system, comprising: uploading an installation file to each computing node of a plurality of computing nodes of a hierarchical structure, each installation file comprising at least one (SEAM) and a workflow service module wherein a SEAM is a basic un-modifiable modular software object that is directed to complete specific tasks after being configured by a configuration file;creating a plurality of configuration files, each configuration file of the plurality of configuration files being associated with one computing node of the plurality of computing nodes, wherein each configuration file contains data that when received buy its computing node directs each SEAM to become a special purpose executable application module that cooperatively functions with other special purpose executable application modules resident within the same computing node via the workflow service module; andloading each configuration file into its associated computing node. 20. The method of claim 19, wherein the installation file is loaded locally via a data loader. 21. The method of claim 19, wherein the installation file is loaded via a communications network. 22. The method of claim 19, wherein each configuration file is transferred to a computing node via a communication network. 23. The method of claim 22, wherein the communication network includes a customized adapter in communication with each computing node, each customized adaptor is configured for symmetrical communication.
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