RU98100084A - COMMUNICATION SYSTEM BETWEEN EARTHLOCK GATEWAY STATIONS THROUGH LOW-ORBIT SATELLITES - Google Patents

Claims (15)

1. A communication system comprising at least the first and second satellites in low Earth orbits, the individual satellites comprising means for receiving first communication signals from ground subscriber stations and for transmitting them, as well as for receiving second communication signals from ground stations and for their transmission, while the first communication signals are in the first frequency range, and the second communication signals are in the second frequency range, and the at least first and second satellites mentioned have respectively the first and second ground обслуживания service areas, characterized in that it comprises at least one ground relay station located in an overlapping region of said first and second ground service zones, said at least one ground relay station including a first transceiver for receiving a first communication signal from a first of said satellites having a first coverage area and for transmitting a received first communication signal to a second of said satellites having a second coverage area, so that aetsya straight line connection between a first station located in a first coverage area and a second station, located in the second coverage area.  2. The communication system according to claim 1, characterized in that at least one of said terrestrial relay stations further comprises a second transceiver for receiving a first communication signal from a second of said satellites having a second coverage area, and for transmitting a received first communication signal to a first of said satellites having a first service area, whereby a reverse link is established between said first and second stations.  3. The communication system according to claim 1, characterized in that at least one of said terrestrial relay stations further comprises means for demodulating a call request signal received from the first satellite, and means for extracting destination information for which the call is intended from demodulated call request signal.  4. The communication system according to claim 3, characterized in that at least one of said terrestrial relay stations further comprises means for selecting a satellite for receiving a signal from that station.  5. The communication system according to claim 3, characterized in that said demodulation means comprise means for eliminating the spreading of the spread spectrum signal received from said first satellite.  6. The communication system according to claim 1, characterized in that said first and second satellites are part of a group of relay satellites in low Earth orbits. 7. The communication system according to claim 1, characterized in that the first and second satellites are part of a group of relay satellites in low Earth orbits, which contains 48 satellites distributed in eight orbital planes, six satellites located equidistantly in the plane, and orbital the planes are inclined at 52 ^o relative to the equator.  8. The method of operation of a communication system having a group of satellite transponders in low Earth orbits, each of which has a corresponding ground service area for two-way communication with ground transceivers, including ground stations and subscriber terminals located in the corresponding ground service area, characterized in that initiate communication with the first ground station by generating a communication request that includes information identifying the destination with which the connection is established transmit a communication request from the first ground station to the first satellite relay of the communication system, relay the communication request by receiving and transmitting it by the first satellite relay in low Earth orbit, receive a communication request from the ground relay station located in the ground coverage area of the first satellite - relay in low Earth orbit, information that determines the destination is extracted from the received communication request, at least partially selected in accordance with the selected inf At least one next low-Earth orbit relay satellite transmits a request for communication from the ground-based relay station to at least one selected low earth orbit relay satellite, wherein at least one selected low-Earth orbit relay satellite has a terrestrial service area that overlaps with the terrestrial service area of the first low-Earth orbit repeater satellite, relay a communication request using its reception and before If at least one selected low-Earth orbit relay satellite is received, a relayed communication request is received from at least one next ground station and a communication link is established with the ground communication network in accordance with the destination specified in the communication request.  9. The method according to claim 8, characterized in that when the information is extracted, the spreading of the spread spectrum of the communication signal is eliminated and this signal is demodulated.  10. The method according to claim 8, characterized in that the group of satellites contains 48 satellites distributed in eight orbital planes, six equidistant satellites in a plane, and said orbital planes are inclined 52 ° relative to the equator.  11. Terrestrial relay station for use with multiple communication satellites in low Earth orbits, the individual multiple satellites having corresponding ground service areas, characterized in that it comprises a first transceiver for receiving a signal on the satellite-to-Earth link from the first communication satellite on low Earth orbit having a first service area and for transmitting a received signal over the Earth-satellite link to a second satellite in low Earth orbit having a second the service, which overlaps with the first service area, has a second transceiver for receiving signals on the satellite-to-Earth communication line from a second communication satellite in low Earth orbit having said second service area, and for transmitting a received signal on the Earth-satellite communication line "to the first of the low Earth orbit satellites having a first service area, means for demodulating a call request signal received from the first low Earth orbit communication satellite, information extraction means about the destination for which the call is intended, from said demodulated call request signal and means for selecting a communication satellite in low Earth orbit to receive said signal on the Earth-satellite line.  12. The ground relay station according to claim 11, characterized in that said demodulation means comprise means for eliminating the spreading of the spread spectrum signal received from the first satellite.  13. The method of operation of a communication system having a group of satellite transponders in low Earth orbits, each of which has a corresponding ground service area for two-way communication with ground transceivers, including ground stations and subscriber terminals located in the corresponding ground service area, characterized in that initiate communication by sending a signal from the subscriber station to the first relay satellite in low Earth orbit, relay the signal through the first relay satellite a torus in low Earth orbit to the first ground station, a communication request is generated by the first ground station, which contains information identifying the destination with which communication is established, a communication request is transmitted from the first ground station to the first relay satellite in low Earth orbit, relay a communication request by receiving and transmitting it by the first relay satellite in low Earth orbit, a communication request is received by the ground relay station, which is located in the terrestrial observational region tinning the first relay satellite in low Earth orbit, transmit a communication request from the ground relay station to at least one of the next satellite relay in low earth orbit, and this at least one next satellite relay in low Earth orbit has a ground service area , which overlaps with the ground service area of the first relay satellite in low Earth orbit, relay the communication request by receiving and transmitting at least m With one of the following low-Earth orbit relay satellites, a relay communication request is received from at least one next ground station and a communication link is established with the ground communication network in accordance with the destination specified in the communication request.  14. The method according to p. 13, characterized in that the transmission and reception amplify the communication signal with an extended spectrum.  15. The method according to p. 13, characterized in that the group contains 48 satellites distributed in eight orbital planes, six equidistant satellites in each plane, and said orbital planes are inclined 52 ° relative to the equator.