RU2003135787A - METHOD AND EQUIPMENT FOR TRANSMISSION AND DISSEMINATION OF INFORMATION - Google Patents

Claims (38)

1. Equipment for bi-directional transmission of a spectrum of directional or focused information-bearing electromagnetic signals, including at least the first inbound and outbound spectra and second inbound and outbound spectra, for distribution to end users, including at least the first and second end users containing at least one distribution medium ("PM"); and first and second distribution medium adapters ("PMAs") associated with the specified distribution medium. 2. The equipment according to claim 1, which is linear. 3. The equipment according to claim 2, in which the specified distribution medium (PM) is the internal distribution medium (PM), and the specified equipment contains at least one adapter of the distribution medium (PMA), easily connected with the specified internal distribution medium (PM) ) 4. The apparatus of claim 1, further comprising a gain circuit located between said second distribution medium adapter and said first end user. 5. The apparatus of claim 1, further comprising a filter circuit located between said second distribution medium adapter and said first end user. 6. The apparatus of claim 1, further comprising a half duplex adapter circuit located between said second distribution medium adapter and said first end user. 7. The apparatus of claim 1, further comprising a full duplex adapter circuit located between said second distribution medium adapter and said first end user. 8. The apparatus of claim 1, further comprising a spectral modulation and demodulation circuit located between said second distribution medium adapter and said first end user. 9. The apparatus of claim 1, wherein said propagation medium is selected from the group consisting of a coaxial cable, a dielectric waveguide, a conductive waveguide, surface wave transmission lines, and airless space. 10. The equipment according to claim 1, in which the specified connection contains a direct metal contact. 11. The equipment according to claim 1, in which the specified connection contains a non-metallic contact. 12. The apparatus of claim 1, wherein said first propagation medium adapter is selected from the group consisting of antennas, surface wave outputs, waveguide connectors, coaxial connectors, and electro-optical converters. 13. The apparatus of claim 1, wherein said first and second incoming spectra contain electromagnetic radiation having wavelengths ranging from 10 m to 1 cm. 14. A method for bi-directional transmission of a spectrum of electromagnetic signals in a medium, comprising providing a propagation medium; associating the first and second distribution medium adapters with the specified distribution medium; supplying a first incoming spectrum to said first distribution medium adapter, through said distribution medium, and to said second distribution medium adapter; and supplying a first outgoing spectrum from said second distribution medium adapter to a first end user. 15. The method of bi-directional transmission of electromagnetic signals according to 14, further comprising supplying a second incoming spectrum to said second propagation medium adapter, through said propagation medium, and to said first propagation medium adapter; and supplying a second outgoing spectrum from said second distribution medium adapter to a second end user. 16. The bi-directional transmission of electromagnetic signals according to 14, further comprising introducing at least one gain circuit between the propagation medium adapter and the end user. 17. The bi-directional transmission of electromagnetic signals according to 14, further comprising introducing a filtering circuit between the propagation medium adapter and the end user. 18. The bi-directional transmission of electromagnetic signals according to 14, further comprising the introduction of a half-duplex adapter circuit between the propagation medium adapter and the end user. 19. The bi-directional transmission of electromagnetic signals according to 14, further comprising the introduction of a full duplex adapter circuit between the propagation medium adapter and the end user. 20. The bi-directional transmission of electromagnetic signals according to 14, further comprising the introduction of a spectral modulation and demodulation scheme between the propagation medium adapter and the end user. 21. The bi-directional transmission of electromagnetic signals according to 14, wherein said propagation medium is selected from the group consisting of a coaxial cable, a dielectric waveguide, a conductive waveguide, surface wave transmission lines and airless space. 22. The bi-directional transmission of electromagnetic signals according to 14, wherein said propagation medium adapters are selected from the group consisting of antennas, surface wave outputs, waveguide connectors, coaxial connectors and electro-optical converters. ((approx. per.) in the original text of the claims in English, paragraph 23 is probably not mistakenly formulated) 24. The bi-directional transmission of electromagnetic signals according to claim 14, wherein said first and second incoming spectra contain electromagnetic radiation having wavelengths ranging from 10 m to 1 cm. 25. A method for the apparent simultaneous and bidirectional transmission of a spectrum of focused or directed electromagnetic signals among end users, including at least the first and second end users, comprising providing at least one propagation medium (PM) suitable for the intended use environment wherein said propagation medium (PM) is selected from the group consisting of a dielectric waveguide, a conductive waveguide, a coaxial transmission line, transmission lines and the surface wave and airless space; providing at least a first and a second distribution medium adapter (PMA) for communicating at least one distribution medium adapter (PMA) with said distribution medium (PM) between said distribution medium (PM) and said end users, said propagation medium adapters are selected from the group consisting of antennas, surface wave outputs, waveguide connectors, coaxial connectors and electro-optical converters; supplying a first incoming spectrum to said first distribution medium adapter, through said distribution medium, and to said second distribution medium adapter; supplying the first outgoing spectrum from the specified second adapter of the distribution medium to the first end user; supplying a second incoming spectrum to said second distribution medium adapter, through said distribution medium, and to said first distribution medium adapter; supplying a second outgoing spectrum from said first adapter of the propagation medium to the second end user. 26. The method according A.25, further comprising introducing a duplex adapter circuit between each end user and each distribution medium adapter, wherein said duplex adapter circuits are selected from the group consisting of half duplex adapters and full duplex adapters, said duplex adapter circuits contain at least , one circuit selected from the group consisting of frequency conversion circuits, gain circuits, filter circuits, spectral modulation circuits, input-output switching circuits, and sync circuits ization. 27. The method according to p, in which at least one of these duplex adapters contains a spectral modulation scheme. 28. The method according to p, in which at least one of these duplex adapters contains at least one synchronization circuit. 29. The method according to p, in which at least one of these duplex adapters contains a filter circuit. 30. The method according to p, in which at least one of these duplex adapters contains a gain circuit. 31. The method according to p, in which at least one of these duplex adapters is a half-duplex adapter (HDA) and contains at least one switching input-output circuit. 32. Equipment for the obvious simultaneous and bidirectional transmission of a spectrum of focused and / or directional electromagnetic signals among end users, including at least the first and second end users, containing at least one functional group of electronic components, each component of which of the group has an electromagnetic connection with at least one other functional group, if any, each of these functional groups containing (a) at least re, one propagation medium (PM) selected from the group consisting of a dielectric waveguide, a conductive waveguide, a coaxial transmission line, a surface wave transmission line, and airless space; and (b) the first and second distribution medium adapters (PMAs) associated with said distribution medium (PM) and inserted between said distribution medium (PM) and said end users, said distribution medium adapters being selected from the group consisting of antennas, outputs surface wave, waveguide connectors, coaxial connectors and electro-optical converters; a first inbound spectrum transmitted to said first distribution medium adapter through said distribution medium and to said second distribution medium adapter; a first outgoing spectrum from said second distribution medium adapter to a second end user; a second incoming spectrum to said second distribution medium adapter, through said distribution medium, and to said first distribution medium adapter; and a second outbound spectrum from said first distribution medium adapter to the first end user. 33. The apparatus of claim 32, further comprising a duplex adapter circuit inserted between each end user and each distribution medium adapter (PMA), wherein said duplex adapter circuits are selected from the group consisting of half duplex adapters and full duplex adapters. 34. The apparatus of claim 33, wherein each of said duplex adapter circuits comprises at least one frequency conversion circuit, at least one gain circuit, and at least one filter circuit. 35. The apparatus of claim 33, wherein each of said duplex adapter circuits comprises a spectral modulation scheme. 36. The equipment according to p. 33, containing many functional groups. 37. The apparatus of claim 36, wherein said plurality of functional groups is in a linear configuration. 38. The apparatus according to clause 36, in which the specified set of functional groups is essentially in a linear configuration containing the first and second end groups and at least one internal group, and in which at least one of the specified set of functional groups is associated with an internal group.