Anatomy data-collection with low-frequency noise-cancellation capabililty
First Claim
1. A method for differentiating, where desired, two, different-character acoustic signals emanating from a pair of different sources and arriving substantially contemporaneously as combined signals at the sites of a pair of acoustical-to-electrical transducers, where signals arriving at these transducers from one of the sources arrives for both transducers via a common, undifferentiated conveyance medium, and signals arriving from the other source arrive for each transducer via transducer-specific, different conveyance media, and where it is desired to focus attention on a selected and desired category of information conveyed from the other source, said method comprising utilizing the two transducers, acquiring common-time-base, combined, two-source acoustical signals, subtracting a selected one of these combined signals from the other combined signal, and by said subtracting, distinguishing and revealing the mentioned selected and desired information acquired from acoustic signals emanating from the other source.
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Accused Products
Abstract
A system and a method for clearly obtaining heart sounds in the presence of noise, including, from a systemic point of view (a) a pair of close-proximity sound transducers applied to a pair of sites on the human body for gathering heart and external-source sounds, and for producing from such gathered sounds related, electrical signals, (b) structure coupled to these two transducers for receiving, and producing electronic subtraction, one-from-another, of, such two produced signals, and (c) structure operatively connected to the above first-mentioned structure, for producing a discernable, interpretable output based upon such electronic subtraction. Methodologically, the invention proposes (a) declaring low-frequency sounds which arrive at such transducers from the heart to be near-field sounds, (b) declaring all other low-frequency sounds which arrive at such transducers to be near-field sounds, and (c) employing the arriving far-field sounds in a self-cancellation mode to clarify information content in the arriving near-field sounds.
12 Citations
8 Claims
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1. A method for differentiating, where desired, two, different-character acoustic signals emanating from a pair of different sources and arriving substantially contemporaneously as combined signals at the sites of a pair of acoustical-to-electrical transducers, where signals arriving at these transducers from one of the sources arrives for both transducers via a common, undifferentiated conveyance medium, and signals arriving from the other source arrive for each transducer via transducer-specific, different conveyance media, and where it is desired to focus attention on a selected and desired category of information conveyed from the other source, said method comprising
utilizing the two transducers, acquiring common-time-base, combined, two-source acoustical signals, subtracting a selected one of these combined signals from the other combined signal, and by said subtracting, distinguishing and revealing the mentioned selected and desired information acquired from acoustic signals emanating from the other source.
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5. A system for obtaining and clarifying heart sounds in the presence of noise including
a pair of close-proximity sound transducers applied adjacent one another to a pair of nearby sites on the human body for gathering heart and external-source sounds, and for producing from such gathered sounds related, sound-based electrical signals, structure coupled to the two transducers for receiving, and producing electronic subtraction, one-from-another, of such two produced signals, and structure operatively connected to the above first-mentioned structure, operable to produce a discernable, interpretable output based upon such electronic subtraction.
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7. A method for obtaining and clarifying heart sounds in the presence of noise including
(a) establishing a plural-signal receiver, (b) implementing between the human heart and the established plural-signal receiver a pair of different-character, physiological, sound-signal conveyance paths, (c) acquiring from such paths generally common-character, but path-differentiated, different, common-time-base, heart-produced sound signals, (d) performing, for noise “ - suppression”
purposes, a defined sound-signal-from-sound-signal subtraction of a selected one of such acquired sound signals from the other acquired sound signal, and(e) utilizing the result of such subtraction to produce a human-heart-characteristic interpretable output signal.
- suppression”
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8. A method for collecting low-frequency sounds from the surface of the anatomy via acoustic transducers attached to the anatomy comprising p1 declaring such low-frequency sounds which arrive at such transducers from the heart to be near-field sounds,
declaring all other low-frequency sounds which arrive at such transducers to be near-field sounds, and employing the arriving far-field sounds in a self-cancellation mode to clarify information content in the arriving near-field sounds.
Specification