Data handling in a distributed communication network
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H04B-007/185
H04B-007/14
H04B-007/204
출원번호
US-0084496
(2005-03-18)
등록번호
US-8130692
(2012-03-06)
발명자
/ 주소
Barnhart, Randy C.
Schnaidt, Donald V.
Talcott, Steven W.
Kloosterman, Craig S.
Milani, Melinda C.
출원인 / 주소
Raytheon Company
대리인 / 주소
Baker Botts L.L.P.
인용정보
피인용 횟수 :
0인용 특허 :
7
초록▼
In one embodiment, a system for data handling in a distributed communication network includes a data-handling node (DHN) residing at a mission management center (MMC). The MMC manages operations of one or more remote units. The DHN receives a stream of data units from a routing system. The stream of
In one embodiment, a system for data handling in a distributed communication network includes a data-handling node (DHN) residing at a mission management center (MMC). The MMC manages operations of one or more remote units. The DHN receives a stream of data units from a routing system. The stream of data units includes both stored mission data (SMD) and telemetry data having originated at the remote units. The DHN, in near real time, extracts the telemetry data from the stream of data units, identifies one or more subsystems of the MMC for receiving the extracted telemetry data, and communicates the extracted telemetry data to the identified subsystems of the MMC for processing.
대표청구항▼
1. A system for data handling in a distributed communication network, the system comprising: a data-handling node (DHN) residing at a mission management center (MMC), the MMC managing operations of one or more remote units, the DHN being operable to: receive a stream of data units from a routing sys
1. A system for data handling in a distributed communication network, the system comprising: a data-handling node (DHN) residing at a mission management center (MMC), the MMC managing operations of one or more remote units, the DHN being operable to: receive a stream of data units from a routing system, the stream of data units comprising both stored mission data (SMD) and telemetry data having originated at the remote units;determine whether the stream of data units includes one or more redundant data units;if the stream of data units includes redundant data units, withhold contents of the one or more redundant data units from communication external to the DHN;determine whether the stream of data units is missing one or more data units;based at least in part on the determination of whether the stream of data units is missing one or more data units: identify one of a plurality of sources within the distributed communication network to retransmit the one or more missing data units, wherein the DHN is operable to identify one of a plurality of sources within the distributed communication network by identifying a source that previously received the one or more missing data units from one or more of the remote units;transmit a retransmit request to the identified source; andreceive the missing one or more data units from the identified source;in near real time, extract the telemetry data from the stream of data units;in near real time, identify one or more subsystems of a plurality of subsystems of the MMC for receiving the extracted telemetry data, wherein the subsystems of the MMC each comprise a satellite telemetry analysis (STA) subsystem and a satellite operations (SO) subsystem;in near real time, communicate the extracted telemetry data to the identified subsystems of the MMC for processing; wherein one or more of the identified subsystems of the MMC are operable to: analyze the extracted telemetry data;based on the analysis of the extracted telemetry data, generate one or more commands; andcommunicate the one or more commands to one or more of the remote units; anda manager residing at the MMC, the manager operable to communicate instructions to the remote units. 2. The system of claim 1, wherein the data units comprise virtual channel data units (VCDUs) formatted at least in part according to a Consultative Committee for Space Data Systems (CCSDS) protocol. 3. The system of claim 1, wherein one or more of the remote units are spacecraft. 4. The system of claim 1, wherein SMD having originated at a particular remote unit indicates readings collected at sensors onboard the particular remote unit. 5. The system of claim 1, wherein telemetry data having originated at a particular remote unit indicates a status of each of one or more status points associated with the particular remote unit. 6. The system of claim 1, wherein the telemetry data comprises one or more of real-time telemetry data, playback telemetry data, and stored telemetry data. 7. The system of claim 1, wherein the DHN is further operable to use virtual channel identifiers (VCIDs) in the data units to detect telemetry data for extraction. 8. The system of claim 1, wherein the DHN is further operable to multicast the extracted telemetry data to multiple subsystems of the MMC. 9. The system of claim 1, wherein one or more of the subsystems are operable to process the extracted telemetry data to generate commands (CMDs) for communication to one or more of the remote units. 10. A method for data handling in a distributed communication network, the method comprising: at a data-handling node (DHN) residing at a mission management center (MMC), the MMC managing operations of one or more remote units: receiving a stream of data units from a routing system comprising both stored mission data (SMD) and telemetry data having originated at the remote units;determining whether the stream of data units includes one or more redundant data units;if the stream of data units includes redundant data units, withholding contents of the one or more redundant data units from communication external to the DHN;determining whether the stream of data units is missing one or more data units;based at least in part on the determination of whether the stream of data units is missing one or more data units: identifying one of a plurality of sources within the distributed communication network for the one or more missing data units, wherein identifying one of a plurality of sources within the distributed communication network comprises identifying a source that previously received the one or more missing data units from one or more of the remote units;transmitting a retransmit request to the identified source; andreceiving the missing one or more data units from the identified source;in near real time, extracting the telemetry data from the stream of data units;in near real time, identifying one or more subsystems of a plurality of subsystems of the MMC for receiving the extracted telemetry data, wherein the subsystems of the MMC each comprise a satellite telemetry analysis (STA) subsystem and a satellite operations (SO) subsystem;in near real time, communicating the extracted telemetry data to the identified subsystems of the MMC for processing; wherein one or more of the identified subsystems of the MMC are operable to: analyze the extracted telemetry data;based on the analysis of the extracted telemetry data, generate one or more commands; andcommunicate the one or more commands to one or more of the remote units; andfrom a manager residing at the MMC, communicating instructions to the remote units. 11. The method of claim 10, wherein the data units comprise virtual channel data units (VCDUs) formatted at least in part according to a Consultative Committee for Space Data Systems (CCSDS) protocol. 12. The method of claim 10, wherein one or more of the remote units are spacecraft. 13. The method of claim 10, wherein SMD having originated at a particular remote unit indicates readings collected at sensors onboard the particular remote unit. 14. The method of claim 10, wherein telemetry data having originated at a particular remote unit indicates a status of each of one or more status points associated with the particular remote unit. 15. The method of claim 10, wherein the telemetry data comprises one or more of real-time telemetry data, playback telemetry data, and stored telemetry data. 16. The method of claim 10, further comprising, at the DHN, using virtual channel identifiers (VCIDs) in the data units to detect telemetry data for extraction. 17. The method of claim 10, further comprising, at the DHN, multicasting the extracted telemetry data to multiple subsystems of the MMC. 18. The method of claim 10, wherein one or more of the subsystems are operable to process the extracted telemetry data to generate commands (CMDs) for communication to one or more of the remote units. 19. The method of claim 10, further comprising: determining whether one or more data units included in the steam of data units were received out of sequence from the routing system; andbased on the determination, if the stream of data units includes one or more out-of-sequence data units, storing the out of sequence data unit for later communication external to the DHN. 20. Software for data handling in a distributed communication network, the software encoded in one or more computer-readable media and when executed operable to: at a data-handling node (DHN) residing at a mission management center (MMC), the MMC managing operations of one or more remote units: receive a stream of data units from a routing system comprising both stored mission data (SMD) and telemetry data having originated at the remote units;determine whether the stream of data units includes one or more redundant data units;if the stream of data units includes redundant data units, withhold contents of the redundant one or more data units from communication external to the DHN;determine whether the stream of data units is missing one or more data units;based at least in part on the determination of whether the stream of data units is missing one or more data units: identify one of a plurality of sources within the distributed communication network for the one or more missing data units, wherein identifying one of a plurality of sources within the distributed communication network comprises identifying a source that previously received the one or more missing data units from one or more of the remote units;transmit a retransmit request to the identified source; andreceive the missing one or more data units from the identified source;in near real time, extract the telemetry data from the stream of data units;in near real time, identify one or more subsystems of a plurality of subsystems of the MMC for receiving the extracted telemetry data, wherein the subsystems of the MMC each comprise a satellite telemetry analysis (STA) subsystem and a satellite operations (SO) subsystem;in near real time, communicate the extracted telemetry data to the identified subsystems of the MMC for processing; wherein one or more of the identified subsystems of the MMC are operable to: analyze the extracted telemetry data;based on the analysis of the extracted telemetry data, generate one or more commands; andcommunicate the one or more commands to one or more of the remote units; andfrom a manager residing at the MMC, communicate instructions to the remote units. 21. The software of claim 20, wherein the data units comprise virtual channel data units (VCDUs) formatted at least in part according to a Consultative Committee for Space Data Systems (CCSDS) protocol. 22. The software of claim 20, wherein one or more of the remote units are spacecraft. 23. The software of claim 20, wherein SMD having originated at a particular remote unit indicates readings collected at sensors onboard the particular remote unit. 24. The software of claim 20, wherein telemetry data having originated at a particular remote unit indicates a status of each of one or more status points associated with the particular remote unit. 25. The software of claim 20, wherein the telemetry data comprises one or more of real-time telemetry data, playback telemetry data, and stored telemetry data. 26. The software of claim 20, further operable, at the DHN, to use virtual channel identifiers (VCIDs) in the data units to detect telemetry data for extraction. 27. The software of claim 20, further operable, at the DHN, to multicast the extracted telemetry data to multiple subsystems of the MMC. 28. The software of claim 20, wherein one or more of the subsystems are operable to process the extracted telemetry data to generate commands (CMDs) for communication to one or more of the remote units. 29. A system for data handling in a distributed communication network, the system comprising: at a data-handling node (DHN) residing at a mission management center (MMC), the MMC managing operations of one or more remote units: means for receiving a stream of data units from a routing system comprising both stored mission data (SMD) and telemetry data having originated at the remote units;means for determining whether the stream of data units includes one or more redundant data units;means for, if the stream of data units includes redundant data units, withholding contents of the redundant one or more data units from communication external to the DHN;means for determining whether the stream of data units is missing one or more data units;means for, based at least in part on the determination of whether the stream of data units is missing one or more data units: identifying one of a plurality of sources within the distributed communication network for the one or more missing data units, wherein identifying one of a plurality of sources within the distributed communication network comprises identifying a source that previously received the one or more missing data units from one or more of the remote units;transmitting a retransmit request to the identified source; andreceiving the missing one or more data units from the identified source;means for, in near real time, extracting the telemetry data from the stream of data units;means for, in near real time, identifying one or more subsystems of a plurality of subsystems of the MMC for receiving the extracted telemetry data, wherein the subsystems of the MMC each comprise a satellite telemetry analysis (STA) subsystem and a satellite operations (SO) subsystem;means for, in near real time, communicating the extracted telemetry data to the identified subsystems of the MMC for processing; wherein one or more of the identified subsystems of the MMC are operable to: analyze the extracted telemetry data;based on the analysis of the extracted telemetry data, generate one or more commands; andcommunicate the one or more commands to one or more of the remote units; andat a manager residing at the MMC, means for communicating instructions to the remote units.
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