Optimized integrated high capacity digital satellite trunking network
First Claim
1. A method of communicating over a satellite, wherein the satellite comprises a plurality of antennas, each antenna characterized by an area of coverage in close proximity to the earth (an “
- antenna footprint”
) and configured to receive signals from an earth station and to transmit signals to an earth station within the footprint of that antenna the method comprising;
receiving at one of the plurality of antennas an uplink signal (an “
uplink antenna”
);
based on the frequency of the uplink signal received at the uplink antenna, selecting from the plurality of antennas a downlink antenna;
selecting based on the downlink antenna a downlink signal frequency;
converting the uplink signal frequency to the downlink signal frequency; and
transmitting the downlink signal from the downlink antenna at the downlink frequency.
2 Assignments
0 Petitions
Accused Products
Abstract
An optimized integrated high capacity digital satellite trunking network, otherwise known as the Multipurpose Wideband Communications System (MPWCS) and method to link multiple earth stations in the same or different satellite antenna transponder footprints using uplink frequency to select the downlink footprint. The configuration of the network eliminates the need to reconfigure the transponder based on the desired downlink footprint. The invention integrates wideband receivers and hybrid signal combiners on the satellite along with an appropriate uplink and downlink frequency plan to provide the ability to reconfigure connectivity between uplink and downlink footprints based on uplink frequency selection. Certain configurations allow single hop connectivity between all transponder antenna footprints for all users within those footprints of the geostationary satellite. The system uses the full power and bandwidth of the constituent communications satellites for all services without dividing the power or bandwidth among multiple networks.
60 Citations
16 Claims
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1. A method of communicating over a satellite, wherein the satellite comprises a plurality of antennas, each antenna characterized by an area of coverage in close proximity to the earth (an “
- antenna footprint”
) and configured to receive signals from an earth station and to transmit signals to an earth station within the footprint of that antenna the method comprising;receiving at one of the plurality of antennas an uplink signal (an “
uplink antenna”
);
based on the frequency of the uplink signal received at the uplink antenna, selecting from the plurality of antennas a downlink antenna;
selecting based on the downlink antenna a downlink signal frequency;
converting the uplink signal frequency to the downlink signal frequency; and
transmitting the downlink signal from the downlink antenna at the downlink frequency. - View Dependent Claims (2, 3, 4, 5)
at a transmitting earth station, selecting from the plurality of antennas a downlink antenna the footprint of which includes the location of the transmitting earth station;
selecting at a transmitting earth station an uplink signal from a plurality of frequency bands wherein the uplink signal is associated with the selected downlink antenna; and
transmitting from the transmitting earth station an uplink signal for reception by the receiving earth station.
- antenna footprint”
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3. The method of claim 2 wherein the transmitting earth station and the receiving earth station are located in the footprint of one of the plurality of antennas and wherein the uplink and downlink antennas are the same.
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4. The method of claim 2 wherein the transmitting earth station is located in the footprint of one of the plurality of antennas and the receiving earth station is located in the footprint of another one of the plurality of antennas.
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5. The method of claim 2 wherein the complete power and bandwidth of the satellite is allocated for a trunking network.
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6. An optimized integrated high capacity digital satellite trunking network comprising:
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a satellite comprising;
a plurality of transponders, wherein each of the plurality of transponders has associated therewith a receiver for receiving an uplink signal and a transmitter for transmitting a downlink signal, the transmitter characterized by a bandwidth limitation and an output power limitation;
a plurality of antennas wherein each antenna is characterized by an area of coverage in close proximity to the earth (an “
antenna footprint”
) and is configured to receive an uplink signal from an earth station within the antenna footprint of that antenna and to transmit a downlink signal to an earth station within the antenna footprint of that antenna;
wherein the transmitter of each of the plurality of transponders is associated with one of the plurality of antennas; and
an antenna selection plan wherein the frequency of the uplink signal determines the selection of the one of the plurality of antennas used to transmit the downlink signal; and
a plurality of earth stations, the plurality of transponders and the plurality of earth stations comprising a communications network and wherein each earth station has a transmitter for transmitting an uplink signal and a receiver for receiving a downlink signal. - View Dependent Claims (7, 8, 9, 10, 11, 12, 13, 14, 15, 16)
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Specification
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- Resources
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Current AssigneeRoberts Abokhair & Mardula
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Original AssigneeTransworld Communications USA Inc.
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InventorsMillman, Richard M.
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Primary Examiner(s)Kizou, Hassan
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Assistant Examiner(s)LOGSDON, JOSEPH B
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Application NumberUS09/064,900Time in Patent Office2,049 DaysField of Search370/277, 370/279, 370/281, 370/293, 370/295, 370/316, 370/319, 370/320, 370/343, 370/344, 370/466, 370/480, 455/3.02, 455/3.04, 455/3.05, 455/427, 455/7, 455/17, 455/20, 455/62, 455/73, 455/88, 455/118US Class Current370/316CPC Class CodesH04B 7/1858 Arrangements for data trans...
