Frequency reuse technique for a high data rate satellite communication system
First Claim
1. A frequency reuse method for use with a satellite communication system comprising a plurality of user terminals that are linked by and that communicate with each other by way of a satellite relay system, and wherein each user terminal comprises a transceiver for modulating and demodulating input and output data, and an antenna for transmitting and receiving data to and from the satellite relay system, and wherein the satellite relay system is comprised of a satellite that includes a plurality of receive antennas, a plurality of transmit antennas, and a signal processor that is coupled to the transmit and receive antennas, wherein the frequency reuse method comprises the steps of:
- generating a plurality of sets of polarized interleaved receive beams using the plurality of receive antennas, wherein each receive beam of a particular set covers a portion of a predetermined service area;
coding digital input data at a source user terminal to provide coded data comprising concatenated coding forward error corrected data;
transmitting the coded data from the source user terminal to the satellite relay system;
receiving the transmitted coded data at the satellite relay system on one of the plurality of receive beams;
demodulating the coded data in the signal processor;
multiplexing the demodulated data in the signal processor;
modulating the multiplexed data in the signal processor;
generating a plurality of sets of polarized interleaved transmit beams, wherein each transmit beam of a particular set covers a portion of the predetermined service area; and
transmitting the modulated data to the destination user terminal on one of the plurality of transmit beams that covers that portion of the predetermined service area in which the destination user terminal is located.
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Accused Products
Abstract
Frequency reuse and data coding methods for use in a high data rate satellite communication system. The frequency reuse method provides for dual polarization and spatial reuse of transmit and receive beams to provide for a twelve-fold increase in the effective bandwidth and number of users that may be supported by the system. Transmit and receive antennas provide multiple, interleaved transmit and receive antenna beams. Digital input data at a source user terminal is coded and transmitted from a source user terminal on one of the plurality of receive antenna beams. The received data is demodulated and is routed so that it may be transmitted to a destination user terminal. The data is then remodulated, multiplexed, and transmitted to the destination user terminal on one of the plurality of transmit beams. The transmitted data is decoded at the destination user terminal to produce the output data. The input and output data processed by the system is digital, and the coding (concatenated coding forward error correction processing) is employed to reduce the sensitivity of communicated data to interference. The presently preferred encoding method comprises Reed-Solomon encoding input data, interleaving the encoded data, and convolutionally encoding the interleaved data and then time division multiplexing and modulating the data. The presently preferred decoding method comprises demodulating and demultiplexing received time division multiplexed data, Viterbi decoding the demultiplexed data, deinterleaving the Viterbi decoded data, and Reed-Solomon decoding the deinterleaved data to produce the output data. Other multiplexing schemes may alternatively be employed. The demodulating and remodulating steps regenerates a high quality digital data stream on the satellite that is communicated to the destination terminal to reduce the effects of uplink interference upon the downlink data stream.
120 Citations
24 Claims
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1. A frequency reuse method for use with a satellite communication system comprising a plurality of user terminals that are linked by and that communicate with each other by way of a satellite relay system, and wherein each user terminal comprises a transceiver for modulating and demodulating input and output data, and an antenna for transmitting and receiving data to and from the satellite relay system, and wherein the satellite relay system is comprised of a satellite that includes a plurality of receive antennas, a plurality of transmit antennas, and a signal processor that is coupled to the transmit and receive antennas, wherein the frequency reuse method comprises the steps of:
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generating a plurality of sets of polarized interleaved receive beams using the plurality of receive antennas, wherein each receive beam of a particular set covers a portion of a predetermined service area; coding digital input data at a source user terminal to provide coded data comprising concatenated coding forward error corrected data; transmitting the coded data from the source user terminal to the satellite relay system; receiving the transmitted coded data at the satellite relay system on one of the plurality of receive beams; demodulating the coded data in the signal processor; multiplexing the demodulated data in the signal processor; modulating the multiplexed data in the signal processor; generating a plurality of sets of polarized interleaved transmit beams, wherein each transmit beam of a particular set covers a portion of the predetermined service area; and transmitting the modulated data to the destination user terminal on one of the plurality of transmit beams that covers that portion of the predetermined service area in which the destination user terminal is located. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A frequency reuse method for use with a satellite communication system comprising a plurality of user terminals that are linked by and that communicate with each other by way of a satellite relay system, and wherein each user terminal comprises a transceiver for modulating and demodulating input and output data, and an antenna for transmitting and receiving data to and from the satellite relay system, and wherein the satellite relay system is comprised of a satellite that includes a plurality of receive antennas, a plurality of transmit antennas, and a signal processor that is coupled to the transmit and receive antennas, wherein the frequency reuse method comprises the steps of:
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generating a plurality of sets of polarized interleaved receive beams using the plurality of receive antennas, wherein each receive beam of a particular set covers a portion of a predetermined service area; coding digital input data at a source user terminal to provide concatenated convolutionally encoded data; frequency division multiplexing the convolutionally encoded data; modulating the frequency division multiplexed data; transmitting the modulated data from the source user terminal to the satellite relay system; receiving the transmitted modulated data at the satellite relay system on one of the plurality of receive beams; demodulating the modulated data in the signal processor; time division multiplexing the demodulated data in the signal processor; modulating the time division multiplexed data; generating a plurality of sets of polarized interleaved transmit beams, wherein each transmit beam of a particular set covers a portion of the predetermined service area; and transmitting the modulated time division multiplexed data to the destination user terminal on one of the plurality of transmit beams that covers that portion of the predetermined service area in which the destination user terminal is located; wherein concatenated encoding is employed to reduce the sensitivity of communicated data to interference, and wherein the steps of demodulating and modulating the signal derived from the source user terminal regenerates a high quality digital data stream on the satellite that is communicated to the destination user terminal to reduce the effects of uplink interference. - View Dependent Claims (12, 13, 14, 15, 16, 17, 18)
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19. A frequency reuse method for use with a satellite communication system comprising a plurality of user terminals that are linked by and that communicate with each other by way of a satellite relay system, and wherein each user terminal comprises a transceiver for modulating and demodulating input and output data, and an antenna for transmitting and receiving data to and from the satellite relay system, and wherein the satellite relay system is comprised of a satellite that includes a plurality of receive antennas, a plurality of transmit antennas, and a signal processor that is coupled to the transmit and receive antennas, wherein the frequency reuse method comprises the steps of:
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generating a plurality of sets of polarized interleaved receive beams using the plurality of receive antennas, wherein each receive beam of a particular set covers a portion of a predetermined service area; coding digital input data at a source user terminal to provide coded data comprising concatenated coding forward error corrected data by; encoding input data; interleaving the encoded data; convolutionally encoding the interleaved data; multiplexing the convolutionally encoded data; and modulating the multiplexed data; transmitting the coded data from the source user terminal to the satellite relay system; receiving the transmitted coded data at the satellite relay system on one of the plurality of receive beams; demodulating the coded data received from the source user terminal in the signal processor; multiplexing the demodulated data in the signal processor; modulating the multiplexed data in the signal processor; generating a plurality of sets of polarized interleaved transmit beams, wherein each transmit beam of a particular set covers a portion of the predetermined service area; and transmitting the modulated data to the destination user terminal on one of the plurality of transmit beams that covers that portion of the predetermined service area in which the destination user terminal is located. - View Dependent Claims (20, 21, 22, 23, 24)
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Specification
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- Resources
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Current AssigneeHughes Electronics Corporation (Rtx Corporation)
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Original AssigneeHughes Aircraft Company (Rtx Corporation)
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InventorsRosen, Harold A., Strodtbeck, Andrew L., Reinhardt, Victor S., Vollbrecht, Jennifer L.
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Primary Examiner(s)Olms, Douglas W.
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Assistant Examiner(s)VU, HUY DUY
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Application NumberUS08/142,160Time in Patent Office775 DaysField of Search370/18, 370/50.75, 370/69.1, 370/120, 370/77, 370/78, 370/79, 370/97, 370/110.1, 370/110.4, 375/1, 375/7, 375/39, 455/33.1, 455/33.3, 455/33.2, 455/38.1, 455/73, 455/81, 455/82, 455/151.2, 455/227, 455/228, 455/11.1, 455/12.1, 455/13.1, 455/13.2, 455/13.3US Class Current370/319CPC Class CodesH04B 7/2045 SS-FDMA, FDMA satellite swi...H04L 1/0041 Arrangements at the transmi...H04L 1/0045 Arrangements at the receive...H04L 1/0057 Block codes H04L1/0061, H04...H04L 1/0059 Convolutional codesH04L 1/0065 Serial concatenated codesH04L 1/0071 Use of interleaving interle...H04L 1/06 using space diversityH04L 2001/0097 Relays
