Noise shaping technique for spread spectrum communications
First Claim
1. A method for increasing signal-to-noise ratio of a data signal transmitted over a predetermined bandwidth from a transmitting site to a receiving site by reducing correlation noise, comprising the steps of:
- at the transmitting site;
a. frequency translating the data signal to a translated signal using a single sideband modulator, with the translated signal shifted to a portion of the predetermined bandwidth lying outside an area of greatest correlation noise;
b. spread spectrum encoding the translated signal into a spread signal;
c. transmitting the spread signal; and
at the receiving site;
d. receiving the spread signal as a received signal, with the received signal received in a portion of the predetermined bandwidth lying outside an area of greatest correlation noise;
e. spread spectrum decoding the received signal into an intermediate frequency signal; and
f. frequency translating the intermediate frequency signal using a single sideband demodulator to a replica of the data signal.
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Abstract
A spread spectrum noise shaper uses a modulation technique to achieve a greater signal-to-noise or signal-to-interference ratio (SNR or SIR). The technique doubles the system SIR, in principle. This doubling yields a doubling in system capacity. SNR is increased by receiving the spread spectrum signal in the presence of less noise near the edge of the spread spectrum bandwidth. The technique requires only small additions to a conventional spread spectrum system, in the form of an extra modulator at the transmitter, and an extra demodulator and filter at the receiver.
20 Citations
13 Claims
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1. A method for increasing signal-to-noise ratio of a data signal transmitted over a predetermined bandwidth from a transmitting site to a receiving site by reducing correlation noise, comprising the steps of:
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at the transmitting site; a. frequency translating the data signal to a translated signal using a single sideband modulator, with the translated signal shifted to a portion of the predetermined bandwidth lying outside an area of greatest correlation noise; b. spread spectrum encoding the translated signal into a spread signal; c. transmitting the spread signal; and
at the receiving site;d. receiving the spread signal as a received signal, with the received signal received in a portion of the predetermined bandwidth lying outside an area of greatest correlation noise; e. spread spectrum decoding the received signal into an intermediate frequency signal; and f. frequency translating the intermediate frequency signal using a single sideband demodulator to a replica of the data signal.
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2. A system for increasing signal-to-noise ratio of a data signal transmitted over a predetermined bandwidth from a transmitting site to a receiving site by reducing correlation noise, comprising:
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a. a transmit frequency translator for translating the data signal to a translated signal, with the translated signal shifted to a portion of the predetermined bandwidth lying outside an area of greatest correlation noise; b. a spread spectrum encoder for spreading the spectrum of the translated signal to a spread signal; c. a transmitter for transmitting the spread signal; d. a receiver for receiving the spread and transmitted signal as a received signal, with the received signal received in a portion of the predetermined bandwidth lying outside an area of greatest correlation noise; e. a spread spectrum decoder for decoding the received signal into an intermediate frequency signal; and f. a receive frequency translator for translating the intermediate frequency signal to a replica of the data signal. - View Dependent Claims (3, 4, 5)
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- 6. An improved system for modulating a signal exhibiting a bimodal power spectrum with a pseudo random signal to spread the power spectrum of said signal throughout a predetermined bandwidth, the improvement comprising reducing the effect of receiver correlation noise by pre-modulating the signal with a further signal to effect a separation of the bimodal portions of said power spectrum so that said bimodal portions lie outside the region of greatest correlation noise.
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9. A method for increasing signal-to-noise ratio of a spread-spectrum signal exhibiting bimodal power portions, said spread-spectrum signal to be received over a predetermined bandwidth having a region of greatest correlation noise near a center of the predetermined bandwidth, comprising the steps of:
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modulating the spread-spectrum signal with a modulating signal for separating the bimodal power portions of said spread-spectrum signal away from the region of greatest correlation noise; transmitting the modulated spread-spectrum signal; and receiving the modulated spread-spectrum signal in portions of the predetermined bandwidth lying outside the region of greatest correlation noise.
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10. A method for increasing signal-to-noise ratio of a spread-spectrum signal exhibiting bimodal power portions, said spread-spectrum signal to be received over a predetermined bandwidth having a region of greatest correlation noise near a center of the predetermined bandwidth, comprising the steps of:
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modulating the spread-spectrum signal with a modulating signal for separating the bimodal power portions toward a first edge and toward a second edge of the predetermined bandwidth; transmitting the modulated spread-spectrum signal; and receiving the modulated spread-spectrum signal near the first edge and near the second edge of the predetermined bandwidth, outside the region of greatest correlation noise.
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11. A method for increasing signal-to-noise ratio of a source signal exhibiting bimodal power portions, said source signal to be transmitted, over a predetermined bandwidth having a region of greatest correlation noise near a center of said predetermined bandwidth, from a transmitting site to a receiving site, comprising the steps of:
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at the transmitting site; a. pre-modulating the source signal using a single sideband modulator for separating the bimodal power portions of said source signal away from the center of said predetermined bandwidth as a translated signal; b. modulating the translated signal with a pseudo-random signal for spreading the translated signal throughout said predetermined bandwidth as a spread-spectrum signal; c. transmitting the spread-spectrum signal; and at the receiving site; d. receiving the spread-spectrum signal as a received signal, with the received signal received in portions of said predetermined bandwidth away from the center of said predetermined bandwidth and lying outside the region of greatest correlation noise; e. demodulating the received signal as a demodulated signal; and f. frequency translating the demodulated signal using a single sideband demodulator to a replica of the source signal.
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12. A system for increasing signal-to-noise ratio by reducing correlation noise of a data signal exhibiting bimodal power portions, said data signal to be transmitted over a predetermined bandwidth having a region of greatest correlation noise near a center of said predetermined bandwidth and regions of reduced correlation noise near a left edge and a right edge of said predetermined bandwidth, comprising:
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a. a transmit frequency translator for separating the bimodal power portions of the data signal toward the left edge and toward the right edge of said predetermined bandwidth as a translated signal; b. a spread spectrum encoder for spreading the spectrum of the translated signal to a spread signal; c. a transmitter for transmitting the spread signal; d. a receiver for receiving the spread signal as a received signal, with the received signal received in the regions of reduced correlation noise near the left edge and near the right edge of said predetermined bandwidth; e. a spread spectrum decoder for decoding the received signal; and f. a receive frequency translator for translating the decoded received signal to a replica of the data signal.
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13. A method for increasing signal-to-noise ratio of a spread-spectrum signal exhibiting bimodal power portions, said spread-spectrum signal to be received over a predetermined bandwidth having a region of greatest correlation noise near a center of the predetermined bandwidth and having regions of reduced correlation noise near a left edge and near a right edge of the predetermined bandwidth, comprising the steps of:
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modulating the spread-spectrum signal with a modulating signal for separating the bimodal power portions toward the left edge and toward the right edge of the predetermined bandwidth; transmitting the modulated spread-spectrum signal; and receiving the modulated spread-spectrum signal in the regions of reduced correlation noise near the left edge and near the right edge of the predetermined bandwidth.
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Specification