Logistics system to support deployed assets with over the horizon connectivity
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G01C-023/00
G06F-007/00
출원번호
US-0966322
(2004-10-15)
등록번호
US-7487013
(2009-02-03)
발명자
/ 주소
Miklos,Troy A.
출원인 / 주소
Lockheed Martin Corporation
대리인 / 주소
Bracewell & Giuliani LLP
인용정보
피인용 횟수 :
4인용 특허 :
4
초록▼
A logistic systems to support deployed platforms that includes a reporting system located within deployed assets, an over-the-horizon (OTH) communication system, an information distribution node, a logistics control system, and a servicing activity. The reporting system located within deployable ass
A logistic systems to support deployed platforms that includes a reporting system located within deployed assets, an over-the-horizon (OTH) communication system, an information distribution node, a logistics control system, and a servicing activity. The reporting system located within deployable assets monitors and reports deployed asset status information using the OTH communication system. Thus, the reporting system passes deployed asset status information to the logistics controller via the information distribution node. The logistics controller receives deployed asset status information and allocates the necessary resources to service the deployed asset based on received deployed asset status information. This allocation of resources is coordinated at the servicing activity or service depot in communication with the logistics controller prior to the arrival of the deployed asset saving valuable time.
대표청구항▼
What is claimed is: 1. A real-time logistics management system operable to support a plurality of deployed assets, comprising: a reporting system located within each deployed asset, wherein the reporting system is operable to monitor and report the deployed asset's onboard system statuses; an over-
What is claimed is: 1. A real-time logistics management system operable to support a plurality of deployed assets, comprising: a reporting system located within each deployed asset, wherein the reporting system is operable to monitor and report the deployed asset's onboard system statuses; an over-the-horizon (OTH) communication system communicatively coupled to the reporting system; an information distribution node communicatively coupled to the OTH communication system, wherein the OTH communication system is operable to communicate deployed asset status information from the asset monitoring system to the information distribution node; and a logistics system operable to: receive deployed asset status information from the information distribution node; allocate resources to service the deployed asset based on the received asset status information, wherein the allocation of resources is coordinated at a service depot prior to the arrival of the deployed asset at the service depot. 2. The real-time logistics management system of claim 1, wherein the OTH communication system comprises at least one deployed satellite communications (SATCOM) transceiver operable coupled to the reporting system, wherein the at least one deployed SATCOM transceiver is operable to perform two-way communications with a SATCOM service. 3. The real-time logistics management system of claim 1, wherein the reporting system comprises: an interface unit operably coupled to the at least one deployed SATCCM transceiver; onboard sensors operable to monitor the deployed asset's onboard system statuses; and a computer processor operable to execute instructions to: gather the deployed asset's onboard system statuses from the onboard sensors; and send the deployed asset's onboard system statuses to the information distribution node. 4. The real-time logistics management system of claim 3, wherein the reporting system is further operable to: receive status inquiries initiated by the logistics system regarding the deployed asset's onboard system statuses; gather the deployed asset's onboard system statuses in response to the status inquiry; and respond to the status inquiry with the deployed asset's onboard system statuses. 5. The real-time logistics management system of claim 3, wherein the reporting system is further operable to: detect fault conditions within the deployed asset; and report the fault conditions within the deployed asset status information. 6. The real-time logistics management system of claim 3, wherein the reporting system is further operable to exchange real-time two-way audio and/or visual communications with the logistics system. 7. The real-time logistics management system of claim 3, wherein the reporting system is further operable to: receive status inquiries initiated by the logistics system regarding the deployed asset's onboard system statuses; conduct diagnostics of the deployed asset in response to the status inquiries; gather the deployed asset's onboard system statuses in response to the diagnostics; and respond to the status inquiry with the deployed asset's onboard system statuses. 8. The real-time logistics management system of claim 3, wherein the OTH communication system is augmented with a line-of-site (LOS) communication system. 9. The real-time logistics management system of claim 2, wherein the at least one deployed SATCOM transceiver comprises a commercial off-the-shelf transceiver. 10. The real-time logistics management system of claim 2, wherein: the OTH communications system further comprises an intercom; and the reporting system further comprises a sound-card operably coupler to the computer processor and the intercom, wherein the sound-card is operable to service two-way audio and data communications. 11. The real-time logistics management system of claim 1, wherein the deployed asset status information comprises: consumable status information; expendable status information; and asset sub-system status information. 12. The real-time logistics management system of claim 1, wherein the logistics system is operable to: prioritize resources to service the deployed asset before the deployed asset returns to the service depot; stage resources to service the deployed asset at the service before the deployed asset returns to the service depot; and initiate re-supply of the depot based on resources utilized by the deployed asset. 13. The real-time logistics management system of claim 12, wherein staging resources to service the deployed asset at the service before the deployed asset returns to the service depot further comprises: generating work packages to service the deployed asset; prioritizing and scheduling physical resources to service the deployed asset; and prioritizing and scheduling manpower to service the deployed asset. 14. The real-time logistics management system of claim 1, wherein the deployed asset comprises: a tactical aircraft; a tactical land vehicle; and/or a tactical naval vehicle. 15. A logistics management system comprising: an information distribution node communicatively coupled to an over-the-horizon (OTH) communication system, wherein the OTH communication system is operable to receive deployed asset status information from reporting systems within deployed assets; a service depot operable to service the deployed assets; and a logistics controller coupled to the information distribution node wherein the logistics controller is operable to: receive deployed asset status information from the information distribution node; analyze deployed asset status information from the information distribution node; and allocate resources to service the deployed asset based on the received asset status information, wherein the allocation of resources is coordinated at the service depot prior to the arrival of the deployed asset at the service depot. 16. The logistics management system of claim 15, wherein the logistics controller is further operable to track historical deployed asset maintenance and provide preventative maintenance service recommendations to a user. 17. The logistics management system of claim 15, wherein the logistics controller is further operable to initiate status inquiries regarding the deployed asset's onboard system statuses. 18. The logistics management system of claim 15, wherein the logistics controller is further operable to: detect fault conditions within the deployed asset from the deployed asset's onboard system statuses; and determine corrective actions for the fault conditions; and allocate resources to service the deployed asset based on the fault condition, wherein the allocation of resources is coordinated at a service depot prior to the arrival of the deployed asset at the service depot. 19. The logistics management system of claim 15, wherein the OTH communication system is operable to exchange real-time two-way data, audio and/or visual communications with the deployed asset. 20. The logistics management system of claim 15, wherein the OTH communication system is augmented with a line-of-site (LOS) communication system. 21. The logistics management system of claim 15, wherein the deployed asset status information comprises: consumable status information; expendable status information; and asset sub-system status information. 22. The logistics management system of claim 15, wherein the logistics system is operable to: prioritize resources to service the deployed asset before the deployed asset returns to a service depot; stage resources to service the deployed asset at the service before the deployed asset returns to the service depot; and initiate re-supply of the depot based or, resources utilized by the deployed asset. 23. The logistics management system of claim 22, wherein staging resources to service the deployed asset at the service depot before the deployed asset returns to the service depot further comprises: generating work packages to service the deployed asset; prioritizing and scheduling physical resources to service the deployed asset; and prioritizing and scheduling manpower to service the deployed asset. 24. The logistics management system of claim 15, wherein the deployed asset comprises: a tactical aircraft; a tactical land vehicle; and/or a tactical naval vehicle. 25. A method to service a plurality of deployed assets comprising: gathering deployed asset status information with an onboard reporting system operably coupled to the deployed asset; communicatively coupling the onboard reporting system and an information distribution node via an over-the-horizon (OTH) communication system; communicatively coupling the information distribution node and a logistics controller, wherein deployed asset status information is exchanged between the logistics controller and the onboard reporting system via the information distribution node; allocating resources to service the deployed asset based on the received deployed asset status information, wherein the allocation of resources is coordinated at a service depot prior to arrival of the deployed asset at the service depot. 26. The method of claim 25, wherein the OTH communication system comprises at least one deployed satellite communications (SATCOM) transceiver operable coupled to the reporting system, wherein the at least one deployed SATCOM transceiver is operable to perform two-way communications with a SATCOM service. 27. The method of claim 25, further comprising: initiating status inquiries with the logistics controller regarding the deployed asset status information; gathering the deployed asset status information in response to the status inquiry; and communicating the deployed asset status information to the logistics controller. 28. The method of claim 25, further comprising: detecting fault conditions within the deployed asset; and reporting the fault conditions within the deployed asset status information to the logistics controller. 29. The method of claim 25, further comprising the exchange of real-time two-way data, audio and/or visual communications between the deployed asset and the service depot. 30. The method of claim 25, further comprising: receiving status inquiries initiated by the logistics system regarding the deployed asset status information; conducting diagnostics of the deployed asset in response to the status inquiries; gathering the deployed asset status information in response to the diagnostics; and responding to the status inquiry with the deployed asset status information. 31. The method of claim 25, further comprising augmenting the OTH communication system with a line-of-site (LOS) communication system. 32. The method of claim 25, wherein the deployed asset status information comprises: consumable status information; expendable status information; and asset sub-system status information. 33. The method of claim 25, further comprising: prioritizing resources to service the deployed asset before the deployed asset returns to a service depot; staging resources to service the deployed asset at the service before the deployed asset returns to the service depot; and initiating re-supply of the service depot based on resources utilized by the deployed asset. 34. The method of claim 33, further comprising: generating work packages to service the deployed asset; prioritizing and scheduling physical resources to service the deployed asset; and prioritizing and scheduling manpower to service the deployed asset. 35. The method of claim 25, wherein the deployed asset comprises: a tactical aircraft; a tactical unit; a tactical land vehicle; and/or a tactical naval vehicle.
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이 특허에 인용된 특허 (4)
Smith Colin A. ; Uphold James D. ; Rassa Robert C., Advanced maintenance system for aircraft and military weapons.
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