Digital processing method for parameter estimation of synchronous, asynchronous, coherent or non-coherent signals
First Claim
1. A method of measuring signal parameters which comprises the steps of:
- (a) providing a first signal and a second signal both in the time domain, said first signal and said second signal each having a real component and an imaginary component;
(b) converting said first signal and said second signal to the frequency domain;
(c) autocorrelating a first portion of said converted first signal with a second portion of said converted first signal to provide a measurement of the frequency of said first signal;
(d) crosscorrelating a first portion of said converted second signal with said first portion of said converted first signal to provide a measurement of relative amplitude and/or phase between said first signal and said second signal; and
(e) calculating parameters from the results of said autocorrelating and said crosscorrelating.
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Abstract
The parameters of a digital signal are extracted by the application of autocorrelation and crosscorrelation techniques to effectively measure the frequency and time behavior of a digital signal. The method employs digital autocorrelation and crosscorrelation to determine these parameters. Autocorrelation allows the measurement of signal frequency by measurement of instantaneous signal phase. Crosscorrelation allows measurement of relative phase between two or more signals in two or more channels by measurement of instantaneous phase and by referencing the instantaneous phase to the autocorrelation function. The autocorrelation function and crosscorrelation function preserve relative amplitude and phase. Measurement of relative amplitude and phase allows direction finding calculation for any current class of system that uses amplitude and/or phase to derive angle or arrival. Signal time and frequency measurement at the output of a correlation receiver result in robust characterization of the parameters of the signal. Digital calculations are superior to current analog or hybrid analog and digital methods because errors due to component aging, drift and temperature effects are easily prevented.
67 Citations
24 Claims
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1. A method of measuring signal parameters which comprises the steps of:
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(a) providing a first signal and a second signal both in the time domain, said first signal and said second signal each having a real component and an imaginary component; (b) converting said first signal and said second signal to the frequency domain; (c) autocorrelating a first portion of said converted first signal with a second portion of said converted first signal to provide a measurement of the frequency of said first signal; (d) crosscorrelating a first portion of said converted second signal with said first portion of said converted first signal to provide a measurement of relative amplitude and/or phase between said first signal and said second signal; and (e) calculating parameters from the results of said autocorrelating and said crosscorrelating. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16)
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17. A system for measuring signal parameters which comprises:
- (a) means to convert a first signal and a second signal both in the time domain to the frequency domain, said first signal and said second signal each having a real component and an imaginary component;
(b) means to autocorrelate a first portion of said converted first signal with a second portion of said converted first signal to provide a measurement of the frequency of said first signal;
(c) means to crosscorrelate a first portion of said converted second signal with said first portion of said converted first signal to provide a measurement of relative amplitude and/or phase between said first signal and said second signal; and
(d) means to calculate parameters from the results of said autocorrelating and said crosscorrelating. - View Dependent Claims (18, 19, 20, 21, 22, 23, 24)
- (a) means to convert a first signal and a second signal both in the time domain to the frequency domain, said first signal and said second signal each having a real component and an imaginary component;
Specification