RU2021126215A - DELTA CODING FOR REMOTE SENSING - Google Patents

Claims (64)

1. Method, including: receiving with a satellite (105) having a remote sensing platform (175) a basemap containing a first geographic distribution of information (210), the basemap containing one or more identified objects of the first geographic distribution of information (210); satellite detection (105) using a remote sensing platform (175) of the second geographical distribution of information (230); determining by satellite different information (250) representing the difference between the second geographic distribution of information (230) and the first geographic distribution of information (210), wherein the determination of different information (250) includes identifying one or more additional objects in the second geographic distribution of information (230) ) that are missing from the first geographic information distribution (210), or identifying the movement of one or more identified objects between the first geographic information distribution (210) and the second geographic information distribution (230), or identifying that one or more identified objects are missing from the second geographical distribution of information (230), or a combination thereof; And transmission via satellite (105) to a ground station (110) via a link (160, 140) of different information (250). 2. The method of claim 1, wherein the satellite (105) includes a first satellite (105-a) and the link is served by a second satellite (105-b) and transmitting different information to the ground station (110) includes : transmitting different information to the second satellite (105-b) for retransmission by the second satellite (105-b) to the ground station (110). 3. The method of claim 2, wherein receiving the base card includes: receiving a base map from a ground station (110) via a second satellite (105-b). 4. The method of claim 2, wherein the first satellite (105-a) is in low Earth orbit and the second satellite (105-b) is in geostationary orbit. 5. The method according to any one of paragraphs. 1-4, wherein the basemap includes a first basemap corresponding to a first orbital position of the satellite (105), the method further comprising: receiving a second basemap corresponding to a second orbital position of the satellite (105), the second basemap including a third geographic distribution of information (210); detection by satellite (105) using platform (175) for remote sensing of the fourth geographical distribution of information (230) in the second orbital position; determining by satellite (105) a second different information (250) representing differences between the fourth geographic distribution of information (230) and the third geographic distribution of information (210); And transmission via satellite (105) to the ground station (110) via the link (160, 140) of the second different information (250). 6. The method of claim. 5, in which the reception of the second base map occurs within the segment of the orbit of the satellite (105) between the first orbital position and the second orbital position. 7. The method according to any one of paragraphs. 1-6, wherein the remote sensing platform (175) comprises a visible spectrum imaging device, an infrared imaging device, a hyperspectral imaging device, a synthetic aperture radar, or a combination thereof. 8. The method according to any one of paragraphs. 1-7, further comprising: determining different information transmission scheduling (250) at least in part based on link (160, 140) channel conditions, link (160, 140) bandwidth costs, or different information (250) data volume. 9. The method according to any one of paragraphs. 1-8, further comprising: receiving from the ground station (110) one or more parameters to determine different information (250). 10. The method according to any one of paragraphs. 1-9, further comprising: receiving a second different information (250) representing differences between the first geographic information distribution (210) and the fifth geographic information distribution (210); And generating an updated basemap based at least in part on the second different information (250). 11. Method, including: transmission to the satellite (105) having a platform (175) for remote sensing, the first base map containing the first geographical distribution of information (210), the first base map corresponding to the first orbital position of the satellite (105), while the first base map contains one or more identified objects of the first geographical distribution of information (210); And receiving from a satellite (105) over a communication channel (160, 140) a transmission containing different information (250) representing a certain difference between the second geographic distribution of information (230) detected by the remote sensing platform (175) in the first orbital position, and a first geographical distribution of information (210), wherein the different information (250) contains an indication of one or more additional objects in the second geographical distribution of information (230) that are not present in the first geographical distribution of information (210), or an indication of the movement of one or more identified objects between the first geographic information distribution (210) and the second geographic information distribution (230), or an indication that one or more identified objects are missing from the second geographic information distribution (230), or a combination thereof. 12. The method of claim 11, wherein the satellite (105) includes a first satellite (105-a) and the transmission reception includes: receiving a transmission at a ground station (110) to provide a link (160, 140) to the first satellite (105-a) via the second satellite (105-b). 13. The method of claim 12, wherein the transmission of the first base card includes: transmitting the first basemap from the ground station (110) to the first satellite (105-a) via the second satellite (105-b). 14. The method of claim 12, wherein the first satellite (105-a) is in low Earth orbit and the second satellite (105-b) is in geostationary orbit. 15. The method according to any one of paragraphs. 11-14, further comprising: generating a first basemap based at least in part on one or more images of a geographic area corresponding to the first geographic distribution of information (210) and an elevation model for that geographic area. 16. The method of claim 15, wherein generating the first basemap includes: modifying one or more images to represent a perspective of the satellite (105) at the first orbital position at least in part based on a terrain model for the geographic area. 17. The method of claim 15, wherein generating the first basemap includes: changing one or more images based at least in part on time of day, meteorological information for a geographic area, or a combination thereof. 18. The method according to any one of paragraphs. 11-17, further comprising: transmitting to the satellite (105) a second basemap corresponding to the second orbital position of the satellite (105), the second basemap including a third geographic distribution of information (210); And reception from the satellite (105) of a second transmission containing a second different information (250) representing a certain difference between the fourth geographical distribution of information (230) detected by the remote sensing platform (175) at the second orbital position and the third geographical distribution of information ( 210). 19. The method of claim 18, wherein the transmission of the second basemap occurs within the portion of the orbit of the satellite (105) between the first orbital position and the second orbital position. 20. The method according to any one of paragraphs. 11-19, further comprising: determining transmission reception scheduling based at least in part on link (160, 140) channel conditions, link (160, 140) bandwidth costs, or data amount of differing information (250). 21. The method according to any one of paragraphs. 11-20, further comprising: transmitting to the satellite (105) one or more parameters to determine different information (250). 22. The method according to any one of paragraphs. 11-21, wherein the remote sensing platform (175) comprises a visible spectrum imaging device, an infrared imaging device, a hyperspectral imaging device, or a combination thereof. 23. Satellite (105, 403, 505) containing: transmitter (525); receiver (535); platform (175, 515) for probing; processor (190, 520, 530, 540); a storage device connected to the processor (185, 520, 530, 540); And instructions stored in memory and executed by the processor to: receiving with the receiver (535) a base map containing a first geographic distribution of information (210), wherein the base map contains one or more identified objects of the first geographic distribution of information (210); detection using the platform (175, 515) to probe the second geographic distribution of information (230); determining different information (250) representing the difference between the second geographical distribution of information (230) and the first geographical distribution of information (210), wherein the definition of different information (250) includes identifying one or more additional objects in the second geographical distribution of information (230) that missing from the first geographic distribution of information (210), or identifying the movement of one or more identified entities between the first geographic distribution of information (210) and the second geographic distribution of information (230), or identifying that one or more identified entities are missing from the second geographic distribution information (230), or a combination thereof; And transmission by means of a transmitter (525) of different information (250) to a ground station (110). 24. Device (110, 130, 401, 605) containing: processor (620, 625); a storage device connected to the processor (620, 625); And instructions stored in memory and executed by the processor to: transmission to the satellite (105) of the first base map containing the first geographical distribution of information (210), wherein the first base map corresponds to the first orbital position of the satellite (105) ), while the first base map contains one or more identified objects of the first geographical distribution of information (210 ); And receiving from a satellite (105) over a communication channel (160, 140) a transmission containing different information (250) representing a certain difference between the second geographical distribution of information (230) detected by the satellite (105) at the first orbital position and the first geographical distribution of information (210) ), wherein the different information (250) contains an indication of one or more additional objects in the second geographical distribution of information (230) that are absent in the first geographical distribution of information (210), or an indication of the movement of one or more identified objects between the first geographic distribution of information (210) and a second geographic distribution of information (230), or an indication that one or more identified entities are missing from the second geographic distribution of information (230), or a combination thereof.