Signal correlation technique for a receiver of a spread spectrum signal including a pseudo-random noise code that reduces errors when a multipath signal is present
First Claim
1. A method of processing a received signal that includes both line-of-sight and delayed multipath versions of a transmitted signal, comprising:
- performing a first correlation of the received signal with a first locally generated reference signal that corresponds to a component of the transmitted signal and provides a first correlation function that is sensitive to both the line-of-sight and delayed multipath versions of the transmitted signal, thereby to obtain a measure of a relative phase of said component,performing a second correlation of the received signal with a second locally generated reference signal that corresponds to said transmitted signal component and provides a second correlation function that is sensitive to the received line-of-sight version of the transmitted signal but insensitive to the delayed multipath version of the transmitted signal, andcombining a result of the second correlation with a result of the first correlation in a manner to compensate the measure of the relative phase of said component for an effect of the multipath signal version of the transmitted signal.
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Abstract
A receiver of a radio frequency signal having a pseudo-random noise (PRN) code modulated on a carrier, and techniques of processing such a signal that are especially adapted for ranging applications. Such an application is in a global positioning system (GPS or GLONASS) receiver. Both of the receiver DLL code and PLL carrier loops include a loop component that senses an error in its main loop caused by the presence of a multipath signal. The main loop is continuously adjusted by this sensed error, thereby causing the loop to track more precisely and minimize the effect of the multipath signal. The result is a more accurate range measurement.
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Citations
9 Claims
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1. A method of processing a received signal that includes both line-of-sight and delayed multipath versions of a transmitted signal, comprising:
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performing a first correlation of the received signal with a first locally generated reference signal that corresponds to a component of the transmitted signal and provides a first correlation function that is sensitive to both the line-of-sight and delayed multipath versions of the transmitted signal, thereby to obtain a measure of a relative phase of said component, performing a second correlation of the received signal with a second locally generated reference signal that corresponds to said transmitted signal component and provides a second correlation function that is sensitive to the received line-of-sight version of the transmitted signal but insensitive to the delayed multipath version of the transmitted signal, and combining a result of the second correlation with a result of the first correlation in a manner to compensate the measure of the relative phase of said component for an effect of the multipath signal version of the transmitted signal. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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Specification