Method of and means for detecting digitized multi frequency-coded signals
First Claim
1. A method of detecting digitized samples of multifrequency-coded incoming signals received at an exchange of a telecommunication system utilizing a code of m out of n signaling frequencies, comprising the steps of:
- correlating each incoming-signal sample with all n signaling frequencies to produce n resulting signals;
evaluating the magnitudes of said resulting signals to determine the m signals whose magnitudes surpass a reference level for at least a predetermined minimum time interval;
storing the magnitudes attained by said m signals at the end of said time interval together with a commencement code identifying said m signals;
comparing the stored magnitudes and said reference level with the instantaneous magnitudes of said m signals in successive sampling cycles to determine the instants when each of said instantaneous magnitudes drops below the higher one of two values respectively represented by said reference level and by a predetermined fraction of the corresponding stored magnitude, said reference level being chosen as the larger one of a fixed threshold and a variable threshold, the latter being proportional to the mean of the absolute values of the incoming-signal samples as averaged over a succession of sampling cycles; and
registering a termination code at the last of said instants.
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Abstract
Digitized samples of switching or supervisory signals in the form of specific frequency pairs, selected from n predetermined signaling frequencies, are received at a PCM terminal of a telephone exchange and fed to n frequency correlators, one for each signaling frequency used in the system, where the samples are multiplied by a sine function and a cosine function of the respective signaling frequency and the two products are integrated and vectorially added to form a resulting binary signal. The absolute value of the incoming-signal sample in each PCM time slot is multiplied in a pair of pseudo-correlators with two fixed values of approximately equal magnitude but opposite sign. A microcomputer compares the output signals of the several frequency correlators with a fixed threshold, or with an adaptive threshold derived from the output of one of the pseudo-correlaors if that threshold surpasses the fixed one. If the threshold used as a reference is exceeded for a predetermined length of time, the output signal is recognized as being a true signaling pulse. A significant discrepancy between the absolute magnitudes of the two pseudo-correlator outputs, detected by the microcomputer, gives rise to an alarm signal indicative of a malfunction. The several frequency correlators and pseudo-correlators can all be constituted by a single circuit component to which the various signaling frequencies are successively applied in any time slot assigned to an incoming signaling channel.
38 Citations
10 Claims
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1. A method of detecting digitized samples of multifrequency-coded incoming signals received at an exchange of a telecommunication system utilizing a code of m out of n signaling frequencies, comprising the steps of:
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correlating each incoming-signal sample with all n signaling frequencies to produce n resulting signals; evaluating the magnitudes of said resulting signals to determine the m signals whose magnitudes surpass a reference level for at least a predetermined minimum time interval; storing the magnitudes attained by said m signals at the end of said time interval together with a commencement code identifying said m signals; comparing the stored magnitudes and said reference level with the instantaneous magnitudes of said m signals in successive sampling cycles to determine the instants when each of said instantaneous magnitudes drops below the higher one of two values respectively represented by said reference level and by a predetermined fraction of the corresponding stored magnitude, said reference level being chosen as the larger one of a fixed threshold and a variable threshold, the latter being proportional to the mean of the absolute values of the incoming-signal samples as averaged over a succession of sampling cycles; and registering a termination code at the last of said instants. - View Dependent Claims (2, 3, 4, 5)
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6. In an exchange of a telecommunication system wherein digitized samples of multifrequency-coded incoming signals conform to a code of m out of n signaling frequencies, in combination:
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timing means establishing a succession of sampling cycles; input means connected to receive digitized incoming-signal samples; local generating means for producing digital samples of n oscillations representing said signaling frequencies; correlation means connected to said input means and to said local generating means for correlating each incoming-signal sample with all n signaling frequencies to produce n resulting signals; source means for producing a reference level; evaluating means controlled by said timing means and including comparison circuitry connected to said source means and to said correlation means for determining the m resulting signals whose magnitudes surpass said reference level for at least a predetermined minimum time interval; memory means connected to said evaluation means for storing the magnitudes attained by said m resulting signals at the end of said time interval and for registering a commencement code identifying said m resulting signals, said comparison circuitry being adapted to determine the instants when the instantaneous magnitude of each of said m resulting signals drops below the higher one of two values respectively represented by said reference level and by a predetermined fraction of the corresponding stored magnitude, said evaluation means emitting to said memory means a termination code at the last of said instants; and output means connected to said memory means for reading out the information stored therein; said source means comprising circuit means connected to said input means for deriving from each incoming-signal sample the absolute value thereof, pseudo-correlating means connected to said circuit means for converting said absolute value into a variable threshold proportional to the mean of said absolute value as averaged over a succession of sampling cycles, and a source of a fixed threshold, said comparison circuitry being adapted to select the larger one of said fixed and variable thresholds for comparison with said incoming-signal sample. - View Dependent Claims (7, 8, 9, 10)
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Specification