RU2002102068A - COMPLETENESS OF AIR COMMUNICATION PLATFORMS AND METHOD OF USE - Google Patents

Claims (50)

1. A communication system on a plurality of freely drifting air platforms, comprising a plurality of platforms lighter than air, including at least a first platform and a second platform, said first and second platforms containing a transceiver of communication signals and are freely drifting without any control of location longitude and latitude, and a plurality of communication devices within a continuous geographic area, wherein at least one of the communication devices has communication means with said transceivers kami communication signals, wherein said at least one of the communication devices is adapted to handover from a first platform to a second platform when said first platform coming out of the service area of said at least one of the communication devices. 2. A communication system on a plurality of freely drifting air platforms according to claim 1, characterized in that it further comprises a height adjustment device, a plurality of geographically spatially separated platform launch stations from which the plurality of platforms can be launched, a plurality of ground terminals and a network of communication channels connecting at least some of the above ground terminals with each other. 3. A communication system on a plurality of freely drifting air platforms according to claim 2, characterized in that said control device controls the flight altitude of the platform in a predetermined range of heights from about 60,000 to 140,000 feet. 4. A communication system on a plurality of freely drifting air platforms according to claim 2, characterized in that said control device is operatively connected to enable regulation of the flight altitude of the platform in the stratosphere of the Earth. 5. A communication system on a plurality of freely drifting air platforms according to claim 2, characterized in that the predefined range of heights in which the altitude of the platforms is regulated includes a range from about 70,000 to about 100,000 feet. 6. A communication system on a plurality of freely drifting air platforms according to claim 2, characterized in that said control device for controlling the flight altitude of the platform in a predetermined height range contains a certain amount of gas in a container having a density less than the density of air in said previously a certain range of heights, and a controlled exhaust valve, through which part of the mentioned amount of gas in the container can be released to reduce buoyancy STI platform. 7. A communication system on a plurality of freely drifting air platforms according to claim 2, characterized in that said control device comprises a certain amount of high density material on board the platform and an exhaust device by which a portion of said high density material can be discharged to increase buoyancy of said platform. 8. A communication system on a plurality of freely drifting air platforms according to claim 2, characterized in that said control device comprises a controlled exhaust valve for gas release, a controlled device for ballast discharge, a height determination mechanism, and a processor for processing a control signal connected to the transceiver, a height determination mechanism controlled by an exhaust valve and a controlled ballast discharge device to provide height control. 9. A communication system on a plurality of freely drifting air platforms according to claim 2, characterized in that said communication system of said plurality of spatially separated ground terminals comprises a transceiver. 10. A communication system on a plurality of freely drifting air platforms according to claim 1, characterized in that it further comprises a tracking device, said tracking device comprising a directional antenna and a directional antenna pointing mechanism responsive to the coordinate data of the Global Positioning System (GPS), for selective pointing the directional antenna onto one or more of a plurality of platforms. 11. A communication system on a plurality of freely drifting air platforms according to claim 10, characterized in that said tracking device comprises a directional antenna and a directional antenna pointing and signal gain tracking mechanism for aiming the directional antenna on a selected platform in accordance with the level of the communication signal, transmitted between the selected platform and the directional antenna. 12. A communication system on a plurality of freely drifting air platforms according to claim 9, characterized in that at least one of the spatially separated ground terminals contains a network operations center. 13. A communication system on a plurality of freely drifting air platforms according to claim 2, characterized in that it further comprises a network operations center (CCO) connected to a network of communication channels. 14. A communication system on a plurality of freely drifting air platforms according to claim 13, wherein the DSS is connected to at least some of the plurality of ground terminals using a configuration of communication channels such as a network structure with a central station. 15. A communication system on a plurality of freely drifting air platforms according to claim 13, wherein the DSS is connected to at least some of the plurality of ground terminals using a configuration of communication channels such as a cellular structure. 16. A communication system on a plurality of freely drifting air platforms according to claim 2, characterized in that said network of communication channels connecting ground terminals to each other comprises connections to ground communication channels. 17. A communication system on a plurality of freely drifting air platforms according to claim 2, characterized in that said network of communication channels connecting ground terminals, comprises satellite communication channels. 18. A communication system on a plurality of freely drifting air platforms according to claim 2, characterized in that said network of communication channels connecting ground terminals, comprises communication channels between platforms. 19. A communication system on a plurality of freely drifting air platforms according to claim 1, characterized in that said plurality of platforms includes a lighter device than air selected from the group consisting of a balloon, aerostat, zeppelin, air flying machine, airship, meteorological balloon, spheres, hot air balloon, balloon probe, and combinations thereof. 20. A communication system on a plurality of freely drifting air platforms according to claim 1, characterized in that said plurality of platforms includes rubber balloons. 21. A communication system on a plurality of freely drifting air platforms according to claim 1, characterized in that said plurality of platforms includes zero pressure cylinders. 22. A communication system on a plurality of freely drifting air platforms according to claim 1, characterized in that said plurality of platforms includes cylinders with an internal pneumatic chamber. 23. A communication system on a plurality of freely drifting air platforms according to claim 1, characterized in that said plurality of platforms includes balloons of adjustable volume. 24. A communication system on a plurality of freely drifting air platforms according to claim 1, characterized in that said plurality of platforms includes cylinders filled with hydrogen. 25. A communication system on a plurality of freely drifting air platforms according to claim 1, characterized in that said coded communication devices include pagers. 26. A communication system on a plurality of freely drifting air platforms according to claim 1, characterized in that said encoded communication devices include improved message passing devices. 27. A communication system on a plurality of freely drifting air platforms according to claim 1, characterized in that said coded communication devices include cordless phones. 28. A communication system on a plurality of freely drifting air platforms according to claim 1, characterized in that said coded communication devices include telemetry devices. 29. A communication system on a plurality of freely drifting air platforms according to claim 1, characterized in that said coded communication devices include equipment tracking units. 30. A communication system on a plurality of freely drifting air platforms according to claim 1, characterized in that said coded communication devices include personal tracking units. 31. A communication system on a plurality of freely drifting air platforms according to claim 1, characterized in that the platform comprises a quick descent mechanism, the platform being a disposable platform. 32. A communication system on a plurality of freely drifting air platforms according to claim 1, characterized in that the platform comprises a cylinder, the platform comprises a quick descent mechanism, the cylinder being interchangeable for disposal and reuse of the transceiver. 33. A communication system on a plurality of freely drifting air platforms according to claim 1, characterized in that said communication signal transceiver comprises circuits for communicating using a frequency division multiple access (FDMA) protocol. 34. A communication system on a plurality of freely drifting air platforms according to claim 1, characterized in that said communication signal transceiver comprises circuits for communicating using a time division multiple access (TDMA) protocol. 35. A communication system on a plurality of freely drifting air platforms according to claim 1, wherein said communication signal transceiver comprises circuits for communicating using a code division multiple access (CDMA) protocol. 36. A communication system on a plurality of freely drifting air platforms according to claim 1, characterized in that said communication signal transceiver comprises circuits for communicating using a ReFLEX bidirectional communication protocol. 37. A communication system on a plurality of freely drifting air platforms according to claim 1, characterized in that said transceiver of communication signals contains circuits for communicating using the Flex unidirectional protocol. 38. A communication system on a plurality of freely drifting air platforms according to claim 1, characterized in that said transceiver of communication signals contains circuits for communicating using the POCSAG unidirectional paging communication protocol. 39. A communication system on a plurality of freely drifting air platforms according to claim 1, characterized in that said communication signal transceiver comprises circuits for communicating using the European ERMES unidirectional paging communication protocol. 40. A communication system on a plurality of freely drifting air platforms according to claim 1, characterized in that it further comprises a height determination mechanism, a meteorological data source and control means for adjusting the height of the platform in accordance with the wind speed and direction determined in accordance with the mentioned meteorological data. 41. A communication system on a plurality of freely drifting air platforms according to claim 1, characterized in that it further comprises an orientation sensor on board at least one of the plurality of platforms and a controllable antenna associated with at least one of said communication signal transceivers and attached via to at least one of the plurality of platforms, the controllable antenna having stabilization control means for stabilizing the controllable antenna in a downward direction relative to the platform to provide over ezhaschego cover the earth's surface within said geographical area. 42. A communication system on a plurality of freely drifting air platforms according to claim 41, characterized in that it further comprises guidance control means operatively associated with a controlled antenna and an orientation sensor for selectively changing the position of the coverage area of said antenna to ensure filling gaps in the coverage of said geographical area. 43. A communication system on a plurality of freely drifting air platforms according to claim 1, characterized in that at least one of said platforms comprises an unmanned aerostat and a payload housing having a total weight of less than six pounds and external surfaces with predetermined areas and relating weight to size, determined by dividing the total weight in ounces of the payload housing by the square inch of its smallest external surface, equal to not more than three ounces per square inch on any surface container. 44. A communication system on a plurality of freely drifting air platforms according to claim 1, characterized in that at least one of the plurality of platforms further comprises a height adjuster operatively connected to adjust the platform to allow drift in a predetermined range of heights after the initial lift, wherein the height adjuster contains a certain amount of high density material, a device for determining the height of the platform, and a device for determining the height of the platforms The form contains a Global Positioning System (GPS) signal receiver, and a material release mechanism for dumping a portion of said amount of high density material. 45. A communication system on a plurality of freely drifting air platforms according to claim 1, characterized in that it further comprises a shell for gaseous hydrogen intended to fill with some hydrogen, an on-board power supply on at least one of said platforms, said on-board power supply comprises a fuel cell interconnected with said hydrogen gas shell for receiving hydrogen as a fuel component for said fuel cell, and a height adjuster attached to the platform for adjusting the height of the platform within a predetermined height range, said height adjuster comprising a height sensing mechanism, a controlled exhaust valve for discharging gas from the shell, and exhaust valve control means operatively coupled to the height sensing mechanism, for hydrogen gas release for adjusting the height of the platform; controlled ballast discharge means attached to the platform for ballast discharge for adjusting Ania platform height. 46. A communication system on a plurality of freely drifting air platforms according to claim 45, wherein the controllable exhaust valve and the exhaust valve control means operatively associated with it comprise at least one nickel-titanium (NiTi) element mechanically connected to the controllable an outlet valve and operatively connected to a power source for selectively supplying or not supplying electric power thereto to selectively change the length of the NiTi element to open and close a controlled outlet valve. 47. A communication system on a plurality of freely drifting air platforms according to claim 45, characterized in that it further comprises a weather equipment container connected via an optical fiber communication channel to a transceiver to prevent an electric arc between the weather equipment container and the transceiver during the movement of the platform in clouds having electric charge. 48. A communication system on a plurality of freely drifting air platforms according to claim 1, characterized in that it further comprises a tracking system that enables tracking of one or more of said plurality of platforms. 49. A communication system on a plurality of freely drifting air platforms according to claim 12, wherein the network operations center comprises circuits for controlling a predetermined platform operation. 50. A communication system on a plurality of freely drifting air platforms according to claim 1, characterized in that it further comprises a quick coagulation system for removing the platform from the airspace if the platform malfunctions or if it is in an improper location.