Low duty cycle navigation system
First Claim
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1. In a radio transmitter-receiver combination of a R-θ
- type navigating system having a predetermined signal-to-noise threshold below which signals cannot be transmitted, received, modulated, and displayed, the method comprising;
generating a carrier wave at the transmitter;
generating like groups of coded binary pulses at the transmitter and at the receiver;
modulating said carrier with said coded binary pulses, said pulses being of such small increments of energy and so widely distributed in time that the signal-to-noise ratio at the receiver is below said threshold;
combining at the receiver the received and the locally generated groups of pulses;
shifting at the receiver the relative time phase of the two groups of pulses so that the two groups cross-correlate, multiplying one group voltage by the other, and integrating the product until the stored signal exceeds said threshold; and
finally calibrating said relative phase shift in terms of distance between the transmitter and receiver.
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Abstract
This invention relates to radio navigation systems and is particularly dited to means for transmitting range and azimuthal information to selected receivers only. More specifically this invention relates to a R-O navigating system in which the signal is so concealed in noise that the signal is of use only to friendly, as distinguished from enemy receivers. By this system enemy aircraft, in a military sense, cannot `home` on either the shipboard or land-based beacons. Mobile equipment of the system of this invention is passive and is, hence, not subject to detection.
19 Citations
10 Claims
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1. In a radio transmitter-receiver combination of a R-θ
- type navigating system having a predetermined signal-to-noise threshold below which signals cannot be transmitted, received, modulated, and displayed, the method comprising;
generating a carrier wave at the transmitter; generating like groups of coded binary pulses at the transmitter and at the receiver; modulating said carrier with said coded binary pulses, said pulses being of such small increments of energy and so widely distributed in time that the signal-to-noise ratio at the receiver is below said threshold; combining at the receiver the received and the locally generated groups of pulses; shifting at the receiver the relative time phase of the two groups of pulses so that the two groups cross-correlate, multiplying one group voltage by the other, and integrating the product until the stored signal exceeds said threshold; and finally calibrating said relative phase shift in terms of distance between the transmitter and receiver. - View Dependent Claims (2, 3)
- type navigating system having a predetermined signal-to-noise threshold below which signals cannot be transmitted, received, modulated, and displayed, the method comprising;
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4. A navigating system comprising a beacon transmitter and a mobile receiver:
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like clock generators at said transmitter and at said receiver; like pseudo-random generators at the transmitter and receiver for generating a continuous spectrum of frequencies containing components of non-repetitive sequence of binary digits at the frequencies; a low-pass filter at the output of the generator at the transmitter for attenuating frequencies above approximately one-half the clock frequency so that the output of said pseudo-random generator resembles band-limited white noise without coherent information; a cross-correlation detector at said receiver with inputs coupled, respectively, to the local pseudo-random generator and to the received signal sequence, and means for integrating the output of said detector.
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5. A beacon in the radio system of the class described, comprising:
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a stabilized fixed frequency clock generator of the frequency fo ; a pseudo-random signal generator driven by said clock generator for generating a predetermined non-repetitive sequence of binary ones and zeros at said frequency of fo to generate a frequency spectrum of the general form sin x/x with the lowest frequency component of zero amplitude being said fo ; a low-pass filter coupled to the output of said generator for attenuating all frequencies in said spectrum above a predetermined frequency below said fo so that the passed frequencies appear to a receiver with a pass band less than said fo as a band-limited white noise, and a radio frequency transmitter coupled to said filter for radiating a carrier modulated by the output of said filter. - View Dependent Claims (6, 7)
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8. A mobile station of the class described comprising:
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a radio receiver; a stabilized fixed frequency clock generator of the frequency fo ; a pseudo-random signal generator driven by said clock generator for generating a predetermined non-repetitive sequence of binary ones and zeros at said frequency of fo ; a correlation detector coupled to said radio receiver and said signal generator for multiplying together the signals of said receiver and pseudo-random generator; a plurality of integrator circuits; a switch means responsive to said clock generator for successively connecting the output of said correlation detector to said integrator circuits, and resolver means coupled to said integrators for bearing display. - View Dependent Claims (9, 10)
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Specification
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Current Assigneethe united states of america as represented by the secretary of the navy
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Original Assigneethe united states of america as represented by the secretary of the navy
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InventorsDawirs, Willis R.
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Primary Examiner(s)Blum, Theodore M.
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Application NumberUS04/364,892Time in Patent Office13,109 DaysField of Search343/112.3, 343/106, 343/102, 342/174, 342/385, 342/457US Class Current342/457CPC Class CodesG01S 5/0009 Transmission of position in...G01S 5/12 by co-ordinating position l...
