IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
UP-0252205
(2005-10-17)
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등록번호 |
US-7646712
(2010-02-22)
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발명자
/ 주소 |
- Cohen, Alexander J.
- Jung, Edward K. Y.
- Lord, Robert W.
- Rinaldo, Jr., John D.
- Tegreene, Clarence T.
- Levien, Royce A.
- Malamud, Mark A.
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출원인 / 주소 |
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인용정보 |
피인용 횟수 :
26 인용 특허 :
22 |
초록
A device, method, computer program product, and network subsystem are described for receiving wireless data via a node-speed-change-prediction-dependent signal route and relaying at least a portion of the wireless data.
대표청구항
▼
What is claimed is: 1. A network subsystem comprising: (a) means for receiving wireless data via a node-speed-change-prediction-dependent signal route, the means for receiving the wireless data including at least (1) means for receiving at least video data, a predictive indication of an intermediat
What is claimed is: 1. A network subsystem comprising: (a) means for receiving wireless data via a node-speed-change-prediction-dependent signal route, the means for receiving the wireless data including at least (1) means for receiving at least video data, a predictive indication of an intermediate node turning, and an estimate of a transmission time in the wireless data; (2) means for indicating a suitability of the intermediate node; (3) means for broadcasting a descriptor of the intermediate node to one or more nodes outside the node-speed-change-prediction-dependent signal route; and (4) means for displaying at least an indication of the wireless data within a stationary node along the node-speed-change-prediction-dependent signal route; and (b) means for relaying at least a portion of the wireless data. 2. A network subsystem comprising: (a) means for receiving wireless data via a node-speed-change-prediction-dependent signal route; and (b) means for relaying at least a portion of the wireless data, the means for relaying including at least (1) means for indicating a suitability of a stationary node and a type of the stationary node to a satellite; (2) means for identifying one or more other downstream node candidates to the satellite; routing at least a portion of the wireless data via the satellite; (3) means for including at least user identification data or a source position prediction in the portion of the wireless data; and (4) means for sending at least some meteorological or medical data in the wireless data along the signal route without awaiting an acknowledgment signal. 3. A network subsystem comprising: (a) means for receiving wireless data via a node-speed-change-prediction-dependent signal route; and (b) means for relaying at least a portion of the wireless data, the means for relaying including at least (1) means for including at least meteorological or medical data in the wireless data; (2) means for sending one or more of payment-indicative data or user identification data of the wireless data along the node-speed-change-prediction-dependent signal route without awaiting an acknowledgment signal; and (3) means for identifying one or more downstream node candidates to a downstream node. 4. The network subsystem of claim 1, wherein the means for receiving wireless data via a node-speed-change-prediction-dependent signal route comprises: means for receiving at least an estimate of a destination-node-movement speed in the wireless data. 5. The network subsystem of claim 1, wherein the means for receiving wireless data via a node-speed-change-prediction-dependent signal route comprises: means for receiving at least an estimate of a transmission time in the wireless data. 6. The network subsystem of claim 1, wherein the means for receiving wireless data via a node-speed-change-prediction-dependent signal route comprises: means for receiving at least video data in the wireless data. 7. The network subsystem of claim 1, wherein the means for receiving wireless data via a node-speed-change-prediction-dependent signal route comprises: means for receiving at least a service provider identifier in the wireless data. 8. The network subsystem of claim 1, wherein the means for receiving wireless data via a node-speed-change-prediction-dependent signal route comprises: means for indicating the wireless data in a mobile node within the node-speed-change-prediction-dependent signal route. 9. The network subsystem of claim 1, wherein the means for receiving wireless data via a node-speed-change-prediction-dependent signal route comprises: means for receiving a response via a response route substantially identical to the node-speed-change-prediction-dependent signal route. 10. The network subsystem of claim 1, wherein the means for receiving wireless data via a node-speed-change-prediction-dependent signal route comprises: means for routing at least the portion of the wireless data through the stationary node. 11. The network subsystem of claim 1, wherein the means for receiving wireless data via a node-speed-change-prediction-dependent signal route comprises: means for correcting at least the portion of the wireless data. 12. The network subsystem of claim 1, wherein the means for receiving wireless data via a node-speed-change-prediction-dependent signal route comprises: means for indicating a suitability of the intermediate node. 13. The network subsystem of claim 1, wherein the means for receiving wireless data via a node-speed-change-prediction-dependent signal route comprises: means for evaluating a suitability of the node-speed-change-prediction-dependent signal route by performing an arithmetic calculation. 14. The network subsystem of claim 1 wherein the means for receiving wireless data via a node-speed-change-prediction-dependent signal route comprises: means for receiving a predictive indication of the intermediate node going offline. 15. The network subsystem of claim 1, wherein the means for receiving wireless data via a node-speed-change-prediction-dependent signal route comprises: means for receiving a predictive indication of the intermediate node encountering a local service level change. 16. The network subsystem of claim 1, wherein the means for relaying at least a portion of the wireless data comprises: means for including at least a message length value in a header of the wireless data. 17. The network subsystem of claim 1, wherein the means for relaying at least a portion of the wireless data comprises: means for including at least an estimate of a travel time in the wireless data. 18. The network subsystem of claim 1, wherein the means for relaying at least a portion of the wireless data comprises: means for including at least payment-indicative data in the wireless data. 19. The network subsystem of claim 1, wherein the means for relaying at least a portion of the wireless data comprises: means for including at least a source position prediction in the wireless data. 20. The network subsystem of claim 1, wherein the means for relaying at least a portion of the wireless data comprises: means for including at least user identification data in the wireless data. 21. The network subsystem of claim 1, wherein the means for relaying at least a portion of the wireless data comprises: means for including at least some photographic image data in the wireless data. 22. The network subsystem of claim 1, wherein the means for relaying at least a portion of the wireless data comprises: means for including at least meteorological data in the wireless data. 23. The network subsystem of claim 1, wherein the means for relaying at least a portion of the wireless data comprises: means for including at least medical data in the wireless data. 24. The network subsystem of claim 1, wherein the means for relaying at least a portion of the wireless data comprises: means for establishing a bidirectional channel along at least a portion of the node-speed-change-prediction-dependent signal route. 25. The network subsystem of claim 1, wherein the means for relaying at least a portion of the wireless data comprises: means for sending the portion of the wireless data along the node-speed-change-prediction-dependent signal route without awaiting an acknowledgment signal. 26. The network subsystem of claim 1, wherein the means for relaying at least a portion of the wireless data comprises: means for transmitting at least the portion of the wireless data into an optical fiber. 27. The network subsystem of claim 1, wherein the means for relaying at least a portion of the wireless data comprises: means for routing at least the portion of the wireless data via a satellite. 28. The network subsystem of claim 1, wherein the means for relaying at least a portion of the wireless data comprises: means for including at least an indication of a vehicle speed in the wireless data. 29. The network subsystem of claim 1, wherein the means for relaying at least a portion of the wireless data comprises: means for indicating a type of the stationary node. 30. The network subsystem of claim 1, wherein the means for relaying at least a portion of the wireless data comprises: means for indicating a suitability of another stationary node. 31. The network subsystem of claim 1, wherein the means for relaying at least a portion of the wireless data comprises: means for identifying one or more downstream node candidates to a downstream node. 32. The network subsystem of claim 1, wherein the means for receiving wireless data via a node-speed-change-prediction-dependent signal route comprises: an antenna operable to receive the wireless data; and a driver configured to adapt a directionality of the antenna. 33. The network subsystem of claim 1, wherein the means for receiving wireless data via a node-speed-change-prediction-dependent signal route comprises: a user interface operable to display at least the portion of the wireless data. 34. The network subsystem of claim 1, wherein the means for relaying at least a portion of the wireless data comprises: circuitry for implementing a location-dependent speed model. 35. The network subsystem of claim 1, wherein the means for relaying at least a portion of the wireless data comprises: circuitry for implementing a vehicle-dependent speed model. 36. The network subsystem of claim 1, further comprising: a passenger vehicle containing the means for receiving the wireless data via the node-speed-change-prediction-dependent signal route. 37. The network subsystem of claim 1, wherein the means for relaying at least the portion of the wireless data comprises: means for including an estimate of a travel time, payment-indicative data, a source position prediction, and user identification data in the wireless data; means for including at least an indication of a vehicle speed in the wireless data; means for including at least meteorological or medical data in the wireless data; means for sending a message length value in a header of the wireless data along the node-speed-change-prediction-dependent signal route without awaiting an acknowledgment signal; means for establishing a bidirectional channel along at least a portion of the node-speed-change-prediction-dependent signal route; means for indicating a type of the intermediate node to the stationary node; means for identifying one or more downstream node candidates to a downstream node; and means for routing a response to the wireless data upstream along the signal route. 38. The network subsystem of claim 2, wherein the means for receiving wireless data via a node-speed-change-prediction-dependent signal route comprises: means for displaying at least an indication of the wireless data in a passenger vehicle within the node-speed-change-prediction-dependent signal route; means for correcting at least a portion of the wireless data; and means for receiving at least a service provider identifier, a predictive indication of another node going offline, and an estimate of a destination-node-movement speed in the wireless data.
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