System and method for combining multiple satellite channels into a virtual composite channel
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H04L-027/04
H04L-025/20
H04B-007/185
출원번호
US-0039632
(2001-10-26)
발명자
/ 주소
Friedman, Robert F.
출원인 / 주소
Virtual Satellite Corporation
대리인 / 주소
DLA Piper Rudnick
인용정보
피인용 횟수 :
4인용 특허 :
8
초록▼
A satellite communications system provides an information channel between remotely located transmitters and receivers. A virtual satellite system provides the same service, but divides the signal either in power or in data content into subchannels such that any particular signal is conducted to the
A satellite communications system provides an information channel between remotely located transmitters and receivers. A virtual satellite system provides the same service, but divides the signal either in power or in data content into subchannels such that any particular signal is conducted to the intended receiver via a plurality of traditional satellite channels. The receiving terminal accepts the plurality of signals simultaneously from a possible plurality of satellites, combining the subchannels comprising the virtual channel into the original signal content as if conducted via a single channel. The receiving antenna system receives satellite subchannel signals from a plurality of directions using multiple antennas or a single antenna with multi-direction capability. Prior to signal combining, the receiver necessarily time-synchronizes the plurality of subchannels by introducing time delay in some channels before combining the subsignals into the original composite. A timing signal present in the virtual satellite system assists the receiver in determining the amount of delay to apply to each incoming signal. The timing signal is either a separate carrier or an additional modulation on the existing information-bearing carrier.
대표청구항▼
1. A multi-channel satellite uplink transmission system dividing an original digital signal into a plurality of digital subchannels and adding a common timing signal to each subchannel, the multi-channel uplink transmission system conspiring:a subchannel divider for transforming the original digital
1. A multi-channel satellite uplink transmission system dividing an original digital signal into a plurality of digital subchannels and adding a common timing signal to each subchannel, the multi-channel uplink transmission system conspiring:a subchannel divider for transforming the original digital signal into the plurality of digital subchannel signals such that each digital subchannel signal contains at least some information unique to that subchannel signal and also such that a bit rate of each digital subchannel signal is lower than a bit rate of the original digital signal; a timing generator for generating a periodic signal; signal combining means, coupled to the timing generator and the subchannel divider, for adding the periodic signal to each subchannel signal within a bandwidth of each subchannel signal such that no additional bandwidth allocation is required to transmit the periodic signal, and in accordance therewith generating a plurality of modulated carrier signals; upconverting means, coupled to the signal combining means, for translating a frequency of each modulated carrier signal to a frequency of a selected one of a plurality of satellite transponders; amplifier means, coupled to the upconverting means, for increasing a power level of each translated modulated carrier signal; and antenna means, coupled to the amplifier means, for directing a radio frequency wave corresponding to each translated modulated carrier signal toward a receiving antenna of each selected satellite transponder. 2. The uplink transmission system of claim 1 wherein at least some of the satellite transponders associated with the plurality of digital subchannel signals are located on one satellite.3. The uplink transmission system of claim 1 wherein the periodic signal associated with any particular subchannel signal is transmitted to a single satellite associated with said any particular subchannel signal.4. The uplink transmission system of claim 3 wherein at least some of the satellite transponders associated with the modulated carrier signals are located on one satellite.5. A multi-channel satellite uplink transmission system dividing an original digital signal into a plurality of digital subchannels and adding a common timing signal to each subchannel, the multi-channel uplink transmission system comprising:a subchannel divider for transforming the original digital signal into the plurality of digital subchannel signals such that each digital subchannel signal carries identical information at a same bit rate as the original digital signal; a timing generator for generating a periodic signal; signal combining means, coupled to the timing generator and the subchannel divider, for adding the periodic signal to each subchannel signal within a bandwidth of each subchannel signal such that no additional bandwidth allocation is required to transmit the periodic signal, and in accordance therewith generating a plurality of modulated carrier signals; upconverting means, coupled to the signal combining means, for translating a frequency of each modulated carrier signal to a frequency of a selected one of a plurality of satellite transponders; amplifier means, coupled to the upconverting means, for increasing a power level of each translated modulated carrier signal; and antenna means, coupled to the amplifier means, for directing a radio frequency wave corresponding to each translated modulated carrier signal toward a receiving antenna of each selected satellite transponder. 6. The satellite uplink transmission system of claim 5 wherein at least some of the transponders associated with the plurality of digital subchannel signals are located on one satellite.7. The satellite uplink transmission mystery of claim 6 wherein the periodic signal associated with a particular subchannel is transmitted on one satellite in a separate frequency allocation as an information-bearing carrier, so that when frequency-separated periodic signals are received by tuners, a relative propagation delay of the subchannels can be measured, an amount of delay in the plurality of delay means will be set in accordance with the relative propagation delays measured in the first step, and associated information-bearing subchannels will be received by the tuners.8. The satellite uplink transmission system of claim 7 wherein at least some of the transponders associated with the plurality of subchannels are located on one satellite.9. A multi-channel satellite uplink transmission system dividing an original analog signal into a plurality of analog subchannels and adding a common timing signal to each analog subchannel signal, the multi-channel uplink transmission system comprising:a subchannel divider for transforming the original analog signal into the plurality of analog subchannel signals such that each digital subchannel signal contains at least some information unique to that subchannel signal; a timing generator for generating a periodic signal; signal combining means, coupled to the timing generator and the subchannel divider, for adding the periodic signal to each subchannel signal within a bandwidth of each subchannel signal such that no additional bandwidth allocation is required to transmit the periodic signal, and in accordance therewith generating a plurality of modulated carrier signals; upconverting means, coupled to the signal combining means, for translating a frequency of each modulated carrier signal to a frequency of a selected one of a plurality of satellite transponders; amplifier means, coupled to the upconverting means, for increasing a power level of each translated modulated carrier signal; and antenns means, coupled to the amplifier means, for directing a radio frequency wave corresponding to each translated modulated caner signal toward a receiving antenna of each selected satellite transponder. 10. The satellite uplink transmission system of claim 9 wherein at least some of the transponders associated with the plurality of subchannels are located on one satellite.11. The satellite uplink transmission system of claim 9 wherein the plurality of subchannels contain identical information, and associated carriers are modulated identically.12. The satellite uplink transmission system of claim 11 wherein at least some of the subchannels are located on one satellite.13. The satellite uplink transmission system of claim 11 wherein the periodic signal associated with a particular subchannel is transmitted in four separate frequency allocations but to one satellite with the information-bearing carrier.14. The satellite uplink transmission system of claim 13 wherein at least some of the transponders associated with the plurality of subchannel are located on said one satellite.15. A multi-channel satellite uplink transmission system dividing an original multiplexed signal into a plurality of independent digital subchannels, the multi-channel uplink transmission system comprising:a subchannel divider for transforming the original digital multiplexed signal into the plurality of independent digital subchannels such that an information content of a given independent component of the original digital multiplexed signal is contained entirely within one of the plurality of independent digital subchannels, and such that each of the digital subchannels has a lower bit rate than the original digital multiplexed signal; modulator means, coupled to the signal combining means, for generating an intermediate frequency radio frequency carrier associated with each of the plurality of independent digital subchannels; upconverting means, coupled to the signal combining means, for translating a frequency of each modulated carrier signal to a frequency of a selected one of a plurality of satellite transponders; amplifier means, coupled to the upconverting means, for increasing a power level of each translated modulated carrier signal; and antenna means, coupled to the amplifier means, for directing a radio frequency wave corresponding to each translated modulated carrier signal toward a receiving antenna of each selected satellite transponder.
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이 특허에 인용된 특허 (8)
Friedman Robert F., Method and apparatus for combining transponders on multiple satellites into virtual channels.
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Avellan, Abel; Jayasimha, Sriram, System and method for enabling ultra small aperture communication antenna using spectral replication and coherent frequency and phase combining.
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