Pulse recognition method and device, and use thereof for the filtering of the S mode responses of a secondary radar
First Claim
1. A digital method for the real-time detection of pulse messages constituted according to a standard defining the widths and relative positions of the different pulses constituting the message, the standard stipulating that the message may be short, in which case it comprises a number (A+B) of pulses, or long in which case it comprises (A+B+C) pulses, wherein:
- 1) signals representing the presence or absence of a pulse leading edge are memorized in sequence at intervals corresponding to a period P, for a number of periods P that is sufficient to memorize at least (A+B+1) pulses of the message, each leading edge having, at each instant, an address in the memory as a function of its instant of arrival;
2) a check is made to verify the simultaneous presence of a first group of pulses which, by virtue of the relative time differences of their addresses, are liable to belong to the (A+B) first pulses memorized, this simultaneous presence leading to the production of a first signal having the value (1) in the event of presence and the value (0) in the event of absence and simultaneously a check is made to verify the simultaneous presence of a second group of pulses which, by virtue of the relative time differences of their addresses, are liable to belong to pulses of the message, memorized after the (A+B) first pulses, this presence leading to the production of a second signal having the value (1) in the event of presence and the value (0) in the event of absence, the first signal at (1) constituting a message detection, the second signal at (0) or (1) characterizing a short or long message.
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Accused Products
Abstract
Disclosed are a device for the detection of S mode responses received by a secondary radar receiver and its use for the filtering of the pulses contained in this response. The device furthermore comprises means to detect a signal S, means for the real-time computation of the mean values of magnitudes characterizing the pulses that belong to the response, and means for the filtration, by comparison, of the values of the magnitudes measured on each pulse detected with the mean value of the corresponding magnitude.
45 Citations
16 Claims
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1. A digital method for the real-time detection of pulse messages constituted according to a standard defining the widths and relative positions of the different pulses constituting the message, the standard stipulating that the message may be short, in which case it comprises a number (A+B) of pulses, or long in which case it comprises (A+B+C) pulses, wherein:
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1) signals representing the presence or absence of a pulse leading edge are memorized in sequence at intervals corresponding to a period P, for a number of periods P that is sufficient to memorize at least (A+B+1) pulses of the message, each leading edge having, at each instant, an address in the memory as a function of its instant of arrival; 2) a check is made to verify the simultaneous presence of a first group of pulses which, by virtue of the relative time differences of their addresses, are liable to belong to the (A+B) first pulses memorized, this simultaneous presence leading to the production of a first signal having the value (1) in the event of presence and the value (0) in the event of absence and simultaneously a check is made to verify the simultaneous presence of a second group of pulses which, by virtue of the relative time differences of their addresses, are liable to belong to pulses of the message, memorized after the (A+B) first pulses, this presence leading to the production of a second signal having the value (1) in the event of presence and the value (0) in the event of absence, the first signal at (1) constituting a message detection, the second signal at (0) or (1) characterizing a short or long message. - View Dependent Claims (2, 3, 7)
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4. A digital method for the recognition of pulses liable, by virtue of their temporal positions, to belong to a pulse message constituted according to a standard that defines the widths and relative positions of the different pulses constituting the message, the standard stipulating that the message may be short, in which case it comprises (A+B) pulses, or long in which case it comprises (A+B+C) pulses, said method consisting in:
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a) memorizing, in sequence at intervals corresponding to a period P, for at least one of magnitudes α
, β
, γ
, values measured beforehand on each pulse, each value having, at each instant, an address in the memory as a function of its instant of arrival;b) detecting, in sequence at the same instants and at intervals corresponding to the same period P, the presence of a message, the detection being made so as to occur, by construction, in a time that is known in relation to the first pulse of the detected message, each detection prompting the passing to 1 of a first signal initially at 0 and the passing to 1 of a second signal, initially at 0, if the response is long; c) upon the receiving of a value 1 for the first signal and of the value of the second signal, the establishing on several values of the magnitudes α
, β
, γ
respectively, stored in memories which, by virtue of their addresses, have relative positions corresponding to pulses of the message detected at the step b, of mean reference values α
, β
, γ
of the different magnitudes;d) determining the address of the value of at least one of the magnitudes α
, β
, γ
which, by virtue of its position with respect to the moment of the detection, is the address of the value α
, β
, γ
of the first pulse;e) comparing the value of at least one magnitude α
or β
or γ
, with the corresponding mean value α
or β
or γ
;f) recognizing the first pulse as belonging to the message if none of the comparisons shows a divergence, between its value and the corresponding mean reference value, that is greater than a previously fixed threshold for each magnitude; g) recommencing the steps d, e, f for each of the following pulses which, by virtue of their positions, are liable to belong to the detected response, during the time corresponding to a short message if the second signal has the value 0 and the time corresponding to a long message if the second signal has the value 1. - View Dependent Claims (5, 6, 8)
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9. A device for the real-time detection of the pulses belonging to a microwave message constituted according to a standard stipulating that the message may be randomly short or long, and that comprises:
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a preamble constituted by a number A of pulses, for which the widths and relative positions as well as the tolerances of divergence are fixed by the standard; a block of data elements constituted by pulses modulated in position, for which the widths and the possible positions, given the modulation and the tolerances, are fixed by the standard, the standard stipulating that each block of data elements may be randomly constituted by B pulses, in which case the message is said to be short, or (B+C) pulses in which case the message is said to be long, the device being included in a receiver of microwave signals provided with means to elaborate a digital signal LE representing the presence of a pulse leading edge, means to elaborate other magnitudes relating to the microwave signals received by the receiver, and means to convert these magnitudes into digital signals, the digitization being done by a periodic sampling of values of these magnitudes, wherein the sampling is controlled by clock signals simultaneously for the signals LE and for the other magnitudes, the period having the value P, and wherein the signals at output of the means preparing the signals LE are introduced in sequence, upon command by the same clock signals, into a shift register with series input and parallel outputs, comprising a number of compartments that is not smaller than the number of periods P between the leading edge of the first pulse of the preamble and the leading edge of the first pulse of the C pulses characterizing a long response and wherein first groups of outputs of consecutive compartments of this register are connected in parallel to supply series links which supply a first correlator, second groups of outputs of consecutive compartments of this register are connected in parallel to supply series links which themselves supply summators, each summator output supplying the first correlator, and wherein third groups of outputs of consecutive compartments of this register are connected in parallel to supply series links which themselves supply summators, each summator output supplying a second correlator, and wherein the first and second correlators each deliver a positive signal only upon the presence of a signal at each of their supplies. - View Dependent Claims (10, 11, 12)
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13. A device for the real-time recognition of the pulses belonging to a microwave message that is constituted according to a standard stipulating that the message may be randomly short or long and that comprises
a preamble constituted by a number A of pulses, for which the widths and relative positions as well as their divergence tolerances are fixed by the standard, a block of data elements constituted by pulses modulated in position, for which the widths and the possible positions, given the modulation and the tolerances, are fixed by the standard, the standard stipulating that each block of data elements may be randomly constituted by B pulses, in which case the message is said to be short, or (B+C) pulses in which case the message is said to be long, the device being included in a receiver of microwave signals provided with means to elaborate a digital signal which is a pulse message, this message being established on the basis of digital samples, taken at intervals corresponding to a period P, of magnitudes α - , β
, γ
characterizing the video signals received by the receiver, the pulse message comprising an information element pertaining to the detection of a pulse leading edge, LE, information elements "sum", representing the sum of the values of the samples of each magnitude α
, β
, γ
, assigned to the pulse represented by the leading edge LE, an information element "numsam" relating to the number of samples of each magnitude assigned to the pulse represented by the leading edge LE, wherein the device has means to detect the arrival of the message, said means receiving, in sequence, the information elements LE and delivering a signal MSR if a message is detected and a signal LMSR if the detected message is long, a means to compute the mean value sum of each magnitude sum, this means receiving the magnitudes sum and the magnitude numsam of the pulse message, a first addressable circular storage memory, a second addressable circular storage memory which is a working memory, each receiving, in sequence, the values of the magnitudes sum, the address of each magnitude being, at each instant, a function of its instant of arrival in the memory, a means for computing memory addresses and for sequencing, which on receiving the signals MSR and LMSR, determines sum value addresses of at least one magnitude α
, β
, o, the selected values being supplied in sequence, from the working memory, to a means for the computing of a mean value sum of each selected magnitude, this computing means itself supplying a first series of inputs of a comparison element which, at a second series of inputs and in sequence, receives, from the storage memory and after the end of computation of the mean reference values sum, each of the values of the selected magnitudes α
, β
, γ
which, by virtue of their addresses, are liable to belong to the detected response, the comparator holding back, as a pulse belonging to the detected response, the pulses for which the the difference between a value of magnitude measured on this pulse and the mean reference value is below a predetermined threshold for each of the selected magnitudes. - View Dependent Claims (14, 15, 16)
- , β
Specification