Self calibration of a LORAN-C navigation receiver
First Claim
1. Apparatus for self calibrating a navigation receiver-indicator that includes an internal oscillator/clock and provides navigation information by receiving and utilizing the output of said oscillator/clock to measure differences in the time of arrival of signals periodically transmitted by each of a plurality of pairs of navigation transmitters the signal transmissions from each of which are very accurately controlled on a time basis comprising,means for entering the periodic rate of transmission of the signals transmitted by each of said navigation transmitter into said receiver-indicator, anda first means performing the following functions:
- a. comparing the time difference between the receipt of successive signal transmissions from one of said transmitters with an output of said oscillator/clock to determine the error in time counts output from said oscillator/clock.b. interpolating said time count error over the interval between the receipt of successive signal transmissions from said one of said transmitters to get correction counts, andc. algebraically adding said correction counts to said time counts obtained from said oscillator/clock output before being used for said time difference of signal arrival measurements from said pairs of navigation transmitters to thereby achieve accurate time difference of signal arrival measurements.
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Accused Products
Abstract
A method for self calibration of a LORAN-C navigation receiver utilizing a microprocessor is disclosed wherein the time difference of signal arrival of master station pulse trains from a LORAN-C chain selected by group repetition interval (GRI) information input to the receiver becomes a frequency standard to which the output of an oscillator and counter internal to the receiver is compared to determine frequency error. The error is interpolated over each GRI and a correction factor is added or subtracted to each count output of the counter used to make time difference of signal arrival measurements.
17 Citations
2 Claims
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1. Apparatus for self calibrating a navigation receiver-indicator that includes an internal oscillator/clock and provides navigation information by receiving and utilizing the output of said oscillator/clock to measure differences in the time of arrival of signals periodically transmitted by each of a plurality of pairs of navigation transmitters the signal transmissions from each of which are very accurately controlled on a time basis comprising,
means for entering the periodic rate of transmission of the signals transmitted by each of said navigation transmitter into said receiver-indicator, and a first means performing the following functions: -
a. comparing the time difference between the receipt of successive signal transmissions from one of said transmitters with an output of said oscillator/clock to determine the error in time counts output from said oscillator/clock. b. interpolating said time count error over the interval between the receipt of successive signal transmissions from said one of said transmitters to get correction counts, and c. algebraically adding said correction counts to said time counts obtained from said oscillator/clock output before being used for said time difference of signal arrival measurements from said pairs of navigation transmitters to thereby achieve accurate time difference of signal arrival measurements.
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2. A method for self calibration of a navigation receiver-indicator includes an internal oscillator/clock and provides navigation information by receiving and measuring differences in the time of arrival of signals periodically transmitted by each of a plurality of pairs of transmitters the signal transmissions from each of which are very accurately controlled on a time basis, and the time difference measurements are plotted on a navigation chart to determine the position of the receiver-indicator and comprising the steps of:
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entering the periodic rate of transmission of the signals from said transmitters into said receiver-indicator so that said receiver-indicator knows the exact time difference between the receipt of successive signal transmissions from one of said transmitters, comparing the time difference between the receipt of successive signal transmissions from said one of said transmitters to an output of said oscillator/clock to determine the error in time counts output from said oscillator/clock, interpolating said time count error over the interval between the receipt of successive signal transmissions from said one of said transmitters to get correction counts, and algebraically adding said correction counts to said time counts obtained from said oscillator/clock output which is used for said time difference of signal arrival measurements from said pairs of transmitters to thereby achieve accurate time difference of signal arrival measurements used to plot position on said navigation chart.
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Specification