System and methods for wireless broadband delivery of data
First Claim
1. A system for wireless communication between an airborne platform and a surface base station, the system comprising:
- an antenna array at an airborne platform configured to;
generate a plurality of directional synchronization beams, wherein the plurality of directional synchronization beams are directed in at a plurality of corresponding spatial directions;
receive a response to at least one of the plurality of generated directional synchronization beams thereby determining directionality of a base station from the response;
receive a training beam including a known data;
generate weights from the received known data;
form a directional beam towards a base station, wherein the directional beam is spatially oriented signal propagation originating from the airborne platform, and wherein the directional beam receives signals from the surface base station; and
wherein the directional beam is formed using a modified base signal, and wherein the modifying the base signal includes modifying at least one of phase and amplitude using the generated weights;
identify at least one source of interference by flagging all radiating sources, identifying at least one inbound beamform, removing the radiating sources which are generating the at least one inbound beamform from the flagged radiating sources, and setting remaining flagged radiating sources as interference sources; and
form at least one null to substantially attenuate the at least one source of interference.
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Accused Products
Abstract
A system and method for wireless data delivery is provided. The communication may be between the antenna arrays of an airborne platform (such as aircraft) and a surface base station. The antenna arrays may generate a plurality of directional synchronization beams directed in at a plurality of corresponding spatial directions. Other antenna arrays receive the directional synchronization beam and respond in kind, providing the original antenna array a way to determine directionality of the other antenna arrays. The antenna arrays may then receive a training beam. The training beam includes known data, such as a Fourier Matrix, which may then be utilized to generate weights. Weights may then be utilized to modify either of the phase or amplitude of a base signal which is then sent to each of the elements of the antenna array in order to achieve directionality of the signal propagation. Thus, a directional beam may be formed which is oriented toward the source of the training beam, which may be a base station or the like. It may also be desirable to identify sources of interference. Interference sources are all non-desired sources of radiation within the target frequency range. Lastly, the system may steer one or more nulls in order to substantially attenuate the sources of interference.
262 Citations
34 Claims
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1. A system for wireless communication between an airborne platform and a surface base station, the system comprising:
an antenna array at an airborne platform configured to; generate a plurality of directional synchronization beams, wherein the plurality of directional synchronization beams are directed in at a plurality of corresponding spatial directions; receive a response to at least one of the plurality of generated directional synchronization beams thereby determining directionality of a base station from the response; receive a training beam including a known data; generate weights from the received known data; form a directional beam towards a base station, wherein the directional beam is spatially oriented signal propagation originating from the airborne platform, and wherein the directional beam receives signals from the surface base station; and
wherein the directional beam is formed using a modified base signal, and wherein the modifying the base signal includes modifying at least one of phase and amplitude using the generated weights;identify at least one source of interference by flagging all radiating sources, identifying at least one inbound beamform, removing the radiating sources which are generating the at least one inbound beamform from the flagged radiating sources, and setting remaining flagged radiating sources as interference sources; and form at least one null to substantially attenuate the at least one source of interference. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A system for wireless communication between a surface platform and a base station, the system comprising:
an antenna array at a surface platform configured to; generate a plurality of directional synchronization beams, wherein the plurality of directional synchronization beams are directed in at a plurality of corresponding spatial directions; receive a response to at least one of the plurality of generated directional synchronization beams thereby determining directionality of the base station from the response; receive a training beam including a known data; generate weights from the received known data; form a directional beam towards the base station, wherein the directional beam is spatially oriented signal propagation originating from the surface platform, and wherein the directional beam receives signals from the base station; and
wherein the directional beam is formed using a modified base signal, and wherein the modifying the base signal includes modifying at least one of phase and amplitude using the generated weights;identify at least one source of interference by flagging all radiating sources, identifying at least one inbound beamform, removing the radiating sources which are generating the at least one inbound beamform from the flagged radiating sources, and setting remaining flagged radiating sources as interference sources; and form at least one null to substantially attenuate the at least one source of interference. - View Dependent Claims (12, 13, 14, 15, 16, 17, 18, 19, 20)
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21. A method for attenuating sources of interference during wireless communication between an airborne platform and a surface base station, the method comprising:
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generating a plurality of directional synchronization beams, wherein the plurality of directional synchronization beams are directed in at a plurality of corresponding spatial directions; receiving a response to at least one of the plurality of generated directional synchronization beams thereby determining directionality of a base station from the response; receiving a training beam including a known data; generating weights from the received known data; forming a directional beam towards a base station, wherein the directional beam is spatially oriented signal propagation originating from the airborne platform, and wherein the directional beam receives signals from the surface base station; and
wherein the directional beam is formed using a modified base signal, and wherein the modifying the base signal includes modifying at least one of phase and amplitude using the generated weights;identifying at least one source of interference by flagging all radiating sources, identifying at least one inbound beamform, removing the radiating sources which are generating the at least one inbound beamform from the flagged radiating sources, and setting remaining flagged radiating sources as interference sources; and forming at least one null to substantially attenuate the at least one source of interference. - View Dependent Claims (22, 23, 24, 25, 26, 27)
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28. A method for attenuating sources of interference during wireless communication between a surface platform and a surface base station, the method comprising:
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generating a plurality of directional synchronization beams, wherein the plurality of directional synchronization beams are directed in at a plurality of corresponding spatial directions; receiving a response to at least one of the plurality of generated directional synchronization beams thereby determining directionality of a base station from the response; receiving a training beam including a known data; generating weights from the received known data; forming a directional beam towards a base station, wherein the directional beam is spatially oriented signal propagation originating from the surface platform, and wherein the directional beam receives signals from the surface base station; and
wherein the directional beam is formed using a modified base signal, and wherein the modifying the base signal includes modifying at least one of phase and amplitude using the generated weights;identifying at least one source of interference by flagging all radiating sources, identifying at least one inbound beamform, removing the radiating sources which are generating the at least one inbound beamform from the flagged radiating sources, and setting remaining flagged radiating sources as interference sources; and forming at least one null to substantially attenuate the at least one source of interference. - View Dependent Claims (29, 30, 31, 32, 33, 34)
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Specification