Method of eliminating impact/shock related false alarms in an acoustical glassbreak detector
First Claim
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1. A method for detecting the breaking of a contact-sensitive surface, comprising:
- (a) providing an acoustic transducer and a support for the transducer;
(b) providing a detector circuit responsive to the transducer for detecting an acoustic wave resulting from a contact force applied to the surface and generating a signal representing said acoustic wave, said signal having a plurality of consecutive amplitude peaks of the same or opposite phases;
(c) scaling the amplitude of a first peak by a scaling factor less than one to establish a threshold level;
(d) comparing the amplitude of a amplitude peak following said first peak to the threshold level;
(e) disqualifying the contact force as a breakage event if the amplitude of the second peak is greater than the threshold level and the second peak occurs within a time window initiated by detection of the contact force; and
(f) disqualifying a contact force to said support as a breakage event that relies on differentiation of the speed with which a shock wave travels through a solid material versus the speed with which an acoustic wave travels through air.
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Abstract
Apparatus for detecting the breaking of a contact-sensitive surface includes an acoustic, shock, and vibration transducer, a detector circuit responsive to the transducer for detecting an acoustic wave resulting from a contact force applied to the surface and generating a signal, a support for the transducer, and the means for disqualifying a contact force to the support as a breakage event that relies on differentiation of the speed with which a shock wave travels through a solid material versus the speed with which an acoustic wave travels through air. The transducer may include a front electret condenser microphone and in some preferred embodiments the microphone does not have a preamplifier associated therewith. The invention also includes the method for detecting the breaking of a contact-sensitive surface that includes providing an acoustic, shock, and vibration transducer, providing a support for the transducer, providing a detector circuit responsive to the transducer for detecting an acoustic wave resulting from a contact force applied to the surface and generating a signal; and providing means for disqualifying a contact force to the support as a breakage event that relies on differentiation of the speed with which a shock wave travels through a solid material versus the speed with which an acoustic wave travels through air.
21 Citations
23 Claims
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1. A method for detecting the breaking of a contact-sensitive surface, comprising:
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(a) providing an acoustic transducer and a support for the transducer;
(b) providing a detector circuit responsive to the transducer for detecting an acoustic wave resulting from a contact force applied to the surface and generating a signal representing said acoustic wave, said signal having a plurality of consecutive amplitude peaks of the same or opposite phases;
(c) scaling the amplitude of a first peak by a scaling factor less than one to establish a threshold level;
(d) comparing the amplitude of a amplitude peak following said first peak to the threshold level;
(e) disqualifying the contact force as a breakage event if the amplitude of the second peak is greater than the threshold level and the second peak occurs within a time window initiated by detection of the contact force; and
(f) disqualifying a contact force to said support as a breakage event that relies on differentiation of the speed with which a shock wave travels through a solid material versus the speed with which an acoustic wave travels through air.
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2. A method for detecting the breaking of a contact-sensitive surface, comprising:
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(a) providing an acoustic transducer and a support for the transducer;
(b) providing a detector circuit responsive to the transducer for detecting an acoustic wave resulting from a contact force applied to the surface and generating a signal representing the acoustic wave, said signal having a plurality of consecutive amplitude peaks of the same or opposite phases;
(c) scaling the amplitude of the first peak by a scaling factor less than one to establish a threshold level;
(d) comparing the amplitude of a third peak following a second peak with the amplitude of a first peak preceding the second peak;
(e) comparing the amplitude of a fourth peak following the third peak with the threshold level;
(d) disqualifying the contact force as a breakage event if the amplitude of the third peak is greater than the amplitude of the first peak and the amplitude of the fourth peak is greater than the threshold within a time window initiated by detection of the contact force; and
(e) disqualifying a contact force to said support as a breakage event that relies on differentiation of the speed with which a shock wave travels through a solid material versus the speed with which an acoustic wave travels through air.
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3. A breakage detection apparatus for use with acoustical transducers to detect panel breakage, comprising:
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(a) an acoustic signal processing circuit capable of receiving a signal from a first acoustical transducer which includes transducer amplifying and conditioning circuitry and is capable of measuring signal amplitudes and relationships within a set of pass-bands, wherein at least one of said pass-bands compares signal excursions within said pass-band to a scaled version of the previously detected peak of said signal excursion;
(b) a timing control circuit that commences sequence timing of a validation interval upon a sufficient signal threshold excursion and controls the acoustic signal processing circuit to validate a breakage event upon suitable waveform conditions being met whereupon a valid alarm is signaled; and
means for disqualifying a contact force to said support as a breakage event that relies on differentiation of the speed with which a shock wave travels through a solid material versus the speed with which an acoustic wave travels through air.
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4. A method of validating a panel-breakage event from acoustical signals generated by transducers which are received within an acoustical processing circuit, comprising the steps of:
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(a) registering a predetermined minimum number of waveform cycles within a high-frequency pass-band above a first threshold which follows within a first interval after an event trigger;
(b) maintaining a sufficient average signal amplitude within a predetermined second interval following the event trigger;
(c) registering a low-frequency component of the signal having a first peak exceeding a second threshold and wherein less than a predetermined number of additional peaks may exceed a predetermined percentage of the first peak amplitude during a third interval, while not exceeding the amplitude of the first peak in the same phase or subsequently exceeding the predetermined percentage of the first peak amplitude in the opposite phase, the low-frequency component diminishing below a specified voltage threshold during a specified fourth interval;
(d) registering signal ratios of low-frequency signal component (flex) which exceed a specified percentage of a medium-frequency signal component; and
(e) disqualifying a contact force to said support as a breakage event that relies on differentiation of the speed with which a shock wave travels through a solid material versus the speed with which an acoustic wave travels through air.
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5. A method of validating a panel-breakage event within an acoustical detector circuit which processes acoustical signals in each of at least three pass-bands, comprising the steps of:
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(a) qualifying a trigger event within a medium-frequency pass-band having an amplitude which exceeds an event threshold and commencing to time an event interval;
(b) registering a minimum sufficient number of crossings of the absolute value of the signal over a dual-trigger threshold within a high-frequency pass-band during a dual-trigger interval within the event interval;
(c) maintaining a sufficient average absolute signal level during the event interval;
(d) registering a crossing from the absolute value of low-frequency flex signal over a flex threshold within a flex interval within the event interval and recording the phase of the signal;
(e) registering within a first vibration interval less than two crossings of a threshold which is set approximately equal to 35% of the absolute value of the first low-frequency flex peak of opposite polarity to the recorded phase of the flex signal to discriminate impacts;
(f) maintaining within a second vibration interval a flex signal level below the amplitude of the same polarity as the recorded phase of the first flex signal peak and below a threshold of about 35% of first flex signal peak in the opposite polarity of the recorded signal phase to discriminate impacts;
(g) maintaining a low-frequency flex signal amplitude below a flex validation threshold for a period of less than a maximum flex interval within a validation interval within the event interval;
(h) maintaining signal amplitude ratios between the medium-frequency pass-band and the low-frequency flex signal that are consistent with that of a breaking panel;
(i) termination of the event interval and communicating a valid panel-breakage alarm if the above conditions have been met; and
(j) disqualifying a contact force to said support as a breakage event that relies on differentiation of the speed with which a shock wave travels through a solid material versus the speed with which an acoustic wave travels through air.
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6. An apparatus for detecting the breaking of a contact-sensitive surface, comprising:
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an acoustic, shock, and vibration transducer;
a detector circuit responsive to the transducer for detecting an acoustic wave resulting from a contact force applied to the surface and generating a signal and a support for said transducer means for disqualifying a contact force to said support as a breakage event that relies on differentiation of the speed with which a shock wave travels through a solid material versus the speed with which an acoustic wave travels through air. - View Dependent Claims (7, 8, 9, 10, 11, 12, 13, 14)
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15. A method for detecting the breaking of a contact-sensitive surface, comprising:
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providing an acoustic, shock, and vibration transducer;
providing a support for the transducer;
providing a detector circuit responsive to the transducer for detecting an acoustic wave resulting from a contact force applied to the surface and generating a signal; and
providing means for disqualifying a contact force to the support as a breakage event that relies on differentiation of the speed with which a shock wave travels through a solid material versus the speed with which an acoustic wave travels through air. - View Dependent Claims (16, 17, 18, 19, 20, 21, 22, 23)
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Specification
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Current AssigneeAdemco Inc. (Resideo Technologies, Inc.)
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Original AssigneeHoneywell International Inc.
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InventorsSmith, Richard
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Granted Patent
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Time in Patent OfficeDays
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Field of Search
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US Class Current340/566
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CPC Class CodesB60R 2025/1013 Alarm systems characterised...B60R 25/1009 Sonic sensors; Signal treat...G08B 13/04 by breaking of glassG08B 13/1663 using seismic sensing meansG08B 13/1672 using sonic detecting means...G08B 29/183 Single detectors using dual...
