Weighted carrier phase multipath reduction
First Claim
Patent Images
1. An apparatus for use in decoding a composite signal (CS) that includes a distortion component, said apparatus comprising:
- a first generating means for generating a reference signal;
a second generating means for generating a time varying weighting signal which, when mixed with said composite signal and said reference signal, suppresses said distortion component; and
a mixing means for mixing said reference signal, said time varying weighting signal, and said composite signal to produce a first correlation resulting signal that represents a timing relationship between said composite signal and said reference signal without shifting a tracking point in said second generating means.
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Abstract
The effect of the multipath distortions on the carrier phase measurements is reduced by using the weighted correlation functions. The generators of both periodic and dynamic weighted functions are used. The apparatus and method employing generators of such weighted functions can comprise the standard correlators and/or the weighted function correlators.
76 Citations
25 Claims
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1. An apparatus for use in decoding a composite signal (CS) that includes a distortion component, said apparatus comprising:
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a first generating means for generating a reference signal; a second generating means for generating a time varying weighting signal which, when mixed with said composite signal and said reference signal, suppresses said distortion component; and a mixing means for mixing said reference signal, said time varying weighting signal, and said composite signal to produce a first correlation resulting signal that represents a timing relationship between said composite signal and said reference signal without shifting a tracking point in said second generating means. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17)
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18. An apparatus for carrier phase multipath noise reduction of a received composite signal (CS) that includes a transmitted direct signal (DS) and at least one mutipath noise signal (MS), said apparatus comprising:
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a channel A means further comprising; a conversion means for converting said received composite signal into two orthogonally-related signals, said first signal being an inphase composite signal, said second signal being a quadrature composite signal; a clock timing generator means connected to said conversion means for providing the timing clock signal having the time period τ
;a punctual inphase (I) correlator means connected to the I channel of said conversion means for determining punctual amplitude of a waveform formed as a correlation signal between a reference signal and said received inphase composite signal, wherein said punctual inphase correlator means outputs a punctual inphase composite signal; and a punctual quadrature (Q) correlator means connected to the Q channel of said conversion means for assisting in closing of the tracking carrier loop, wherein when said carrier tracking loop is closed the quadrature composite signal is equal to zero; a channel B means further comprising; a conversion means for converting said received composite signal into two orthogonally-related signals, said first signal being an inphase composite signal;
said second signal being a quadrature composite signal;a clock timing generator means connected to said conversion means for providing the shifted-in-time timing clock signal having the time period τ
as compared with said channel A timing clock signal;a punctual inphase (I) and a quadrature (Q) correlator means connected to the I channel of said conversion means for determining delayed amplitude of a waveform in said I and Q channels formed as a correlation signal between a reference signal and said received inphase composite signal, wherein said punctual inphase correlator means outputs shifted-in-time inphase and quadrature composite signals as compared with said channel A inphase and quadrature composite output signals, and wherein said I and Q channel are used for estimation of said carrier multipath signals; and a computer means connected to said A channel means and connected to said B channel means for performing the control function of said A channel means and said B channel means. - View Dependent Claims (19, 20, 21)
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22. An apparatus for carrier phase multipath noise reduction of a received composite signal (CS) that includes a transmitted direct signal (DS) and at least one multipath noise signal (MS), said apparatus utilizing a dynamic weighting function generator for reducing the multipath noise, said apparatus comprising:
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a conversion means for down-converting said received composite signal CS into two orthogonally-related signals, said first orthogonally-related signal being an inphase composite signal ICS, said second orthogonally-related signal being a quadrature composite signal QCS; a first dynamic weighting function generator means connected to said conversion means for providing a first dynamic weighting timing function (Θ
1(t)), wherein said first dynamic function Θ
1(t) changes over time;a second dynamic weighting function generator means connected to said conversion means for providing a second dynamic weighting timing function (Θ
2(t)), wherein said second dynamic function Θ
2(t) changes over time;a first correlator means connected to said first weighting function generator, wherein a correlation waveform is formed by said first correlator means as a correlation signal between a reference signal and said received composite signal CS, and wherein said waveform is related to the relative strength of said orthogonally converted ICS and QCS signals, and wherein said first dynamic weighting function Θ
1(t) is utilized for determining a first time point t1 within a clock time period τ
corresponding to a first point CS1 of said waveform, and wherein at said first time point t1 the tracking of said composite signal CS is completed, and wherein said first correlator means outputs said first composite signal CS1 including a first multipath signal MP1 corresponding to said first time point t1;a second correlator means connected to said second dynamic weighting function generator means, wherein said second dynamic weighting function Θ
2(t) is utilized for determining a second time point t2 corresponding to a second point CS2 on said waveform, wherein said second correlator means outputs said second composite signal CS2 including a second multipath signal MP2 corresponding to said second time point t2, and wherein said multipath signal MS2 at said second time point t2 is reduced as compared with said multipath signal MP1 at said first time point t1;and a computer means connected to said first correlator means and connected to said second correlator means for controlling said first correlator means and for controlling said second correlator means.
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23. An apparatus for carrier phase multipath noise reduction of a received composite signal (CS) that includes a transmitted direct signal (DS) and at least one multipath noise signal (MS), said apparatus utilizing a weighted timing function generator for reducing the multipath noise, said apparatus comprising:
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a conversion means for down-converting said received composite signal CS into two orthogonally-related signals, said first orthogonally-related signal being an inphase composite signal ICS, said second orthogonally-related signal being a quadrature composite signal QCS; a weighting function generator means connected to said conversion means for providing a weighting timing function (F(t)); a weighted Punctual and Quadrature correlator means connected to said weighting function generator, wherein said weighting function F(t) is utilized for determining a first time point t1 within a clock time period τ
corresponding to a first point CS1 of said waveform, and wherein at said first time point t1 the tracking of said composite signal CS is completed, and wherein said multipath signal MS1 at said first point CS1 is reduced as compared with the situation when said weighting function F(t) is not employed;and a computer means connected to said correlator means and connected to said weighted correlator means for controlling said weighted correlator means.
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24. A method for use in decoding a composite signal having a distortion component, said method comprising the steps of:
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generating a reference signal; generating a time varying weighting signal which, when mixed with said composite signal and said reference signal, suppresses said distortion component; and mixing said reference signal, said weighting signal, and said composite signal to produce a first correlation resulting signal that represents a timing relationship between said composite signal and said reference signal without shifting a tracking point in a second generating means.
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25. A method for carrier phase multipath noise reduction of a received composite signal (CS) that includes a transmitted direct signal (DS) and at least one multipath noise signal (MS), said method employing an apparatus utilizing a weighting function generator for reducing the multipath noise, said method comprising the steps of:
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converting said received composite signal CS into two orthogonally-related signals using a conversion means, said first orthogonally-related signal being an inphase composite signal ICS, said second orthogonally-related signal being a quadrature composite signal QCS; determining a first time point t1 within a clock time period τ
corresponding to a first point CS1 of a waveform by employing a first correlator means, wherein said waveform is formed as a correlation signal between a reference signal and said received composite signal CS, wherein said waveform is related to the relative strength of said orthogonally converted ICS and QCS signals;providing a weighting timing function (F(t)) by using a weighting function generator means; determining a second time point t2 corresponding to a second point CS2 on said waveform by using a second correlator means, wherein said second correlator means utilizes said weighting function F(t), and wherein said multipath signal MS2 at said second time point t2 is reduced as compared with said multipath signal MP1 at said first time point t1; and performing the control function of said first correlator means and said second correlator means by using a computer means.
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Specification