Methods and apparatus for augmenting satellite broadcast system
First Claim
1. A communications apparatus comprising:
- a satellite (11) in Earth orbit (12);
said satellite (11) including a satellite transponder (14) and a satellite antenna (16) for conveying a set of satellite beams of radiation (18) toward the surface of the Earth (E);
an airborne platform (20);
said airborne platform (20) including an airborne platform transponder (22) and an airborne platform antenna (24D, 24U) for conveying a set of airborne platform beams of radiation (26) toward the surface of the Earth (E); and
a terminal (28);
said terminal (28) including a receiver (30) and a receiver antenna (32);
said receiver antenna (32) having a central axis (34) and a main antenna lobe (36);
said main antenna lobe (36) being generally coaxial with said central axis (34);
said main antenna lobe (36) being pointed toward said satellite (11) and being used to receive said set of satellite beams of radiation (18);
said receiver antenna (32) also having an antenna surface (35) and a feed structure (37);
said receiver antenna (32) further having a side antenna lobe (38);
said side antenna lobe (38) being generally coaxial to said central axis (34);
said side antenna lobe (38) being used to receive said set of airborne platform beams of radiation (26);
said airborne platform (20) being flown along a flight path (40) which permits said airborne platform (20) to transmit said set of airborne platform beams of radiation (26) to said receiver antenna (32) using said side antenna lobe (38) while said central axis (34) of said receiver antenna (32) is pointed toward said satellite (11).
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Abstract
The present invention comprises methods and apparatus for providing programming from both satellites (11) and local sources (L) using a single receiving antenna (32). In a preferred embodiment, beams (18) emanating from a geosynchronous satellite (11) are collected using the main lobe (36) of a home receiving antenna (32), while a rebroadcast signal (26) generated by an airplane (20) circling above the home (H) is simultaneously sensed using a side lobe (38) of the receiving antenna (32). The airplane (20) flies along a path (40) which is a closed loop so that it is always positioned in a region where the aircraft antenna (24) can supply signals (26) to the receiving terminal (28) using the side lobe (38). The present invention may be implemented using any form of airborne platform (20), whether it is manned or unmanned. A wide range of methods may be employed to deliberately enhance the sensitivity of the side lobe (38) of the receiving antenna (32). The invention allows immediate and inexpensive enhancement to existing geostationary broadcast services.
69 Citations
21 Claims
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1. A communications apparatus comprising:
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a satellite (11) in Earth orbit (12);
said satellite (11) including a satellite transponder (14) and a satellite antenna (16) for conveying a set of satellite beams of radiation (18) toward the surface of the Earth (E);an airborne platform (20);
said airborne platform (20) including an airborne platform transponder (22) and an airborne platform antenna (24D, 24U) for conveying a set of airborne platform beams of radiation (26) toward the surface of the Earth (E); anda terminal (28);
said terminal (28) including a receiver (30) and a receiver antenna (32);said receiver antenna (32) having a central axis (34) and a main antenna lobe (36);
said main antenna lobe (36) being generally coaxial with said central axis (34);
said main antenna lobe (36) being pointed toward said satellite (11) and being used to receive said set of satellite beams of radiation (18);said receiver antenna (32) also having an antenna surface (35) and a feed structure (37); said receiver antenna (32) further having a side antenna lobe (38);
said side antenna lobe (38) being generally coaxial to said central axis (34);
said side antenna lobe (38) being used to receive said set of airborne platform beams of radiation (26);said airborne platform (20) being flown along a flight path (40) which permits said airborne platform (20) to transmit said set of airborne platform beams of radiation (26) to said receiver antenna (32) using said side antenna lobe (38) while said central axis (34) of said receiver antenna (32) is pointed toward said satellite (11). - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20)
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21. A method of augmenting a satellite broadcast system comprising the steps of:
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operating a receiving antenna (32);
said receiving antenna (32) having a main lobe (36) and a side lobe (38);sensing a set of satellite beams of radiation (18) transmitted from a satellite (11) in Earth orbit (12) using said main lobe (36) of said receiving antenna (32); operating an airborne platform (20) over the surface of the Earth;
said airborne platform (20) including an airborne platform transponder (22) and an airborne platform antenna (24D and 24U);conveying a set of airborne platform beams of radiation (26) toward the surface of the Earth (E) to said receiving antenna (32); and simultaneously sensing said set of airborne platform beams of radiation (26) using said side lobe (38) of said receiving antenna (32).
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Specification