Methods of and apparatus for ascertaining the characteristics of motion of inaccessible moving elements

US 4,052,977 A
Filed: 07/17/1975
Issued: 10/11/1977
Est. Priority Date: 07/15/1974
Status: Expired due to Term

First Claim

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1. A method of obtaining a signal containing information as to the characteristics of at least one oscillatorily moving element situated internally of a living body, such method comprising:

a. generating an alternating signal herein called the transmitting electrical signal;

b. transducing the transmitting electrical signal into stress wave energy and radiating such energy at a transmitting station externally of the body and spaced a distance from the element and in a direction to be incident on the element;

c. receiving, at a receiving station externally of the body, and spaced a distance from the element, at least part of the wave energy reflected from the element and transducing such received energy into a received electrical signal;

d. operating on the received electrical signal to produce an electrical output signal of difference frequency as between the then existing transmitting electrical signal and the received electrical signal;

e. sweeping the frequency of the transmitting electrical signal cyclically in sufficiently long sweeps, with a predetermined frequency vs. time pattern and sufficiently wide band frequency excursion range during each cycle so related to the distances of the transmitting and receiving stations from the element and the movement of the element that the difference frequency is in the audible range of frequencies containing an audibly discernible frequency pattern identifying variations in displacement of the position of the element and motion of the element; and

f. transducing the audible range of frequencies containing such audibly discernible frequency pattern of the electrical output signal into an audible output signal.

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Abstract

A method and apparatus for obtaining an audible signal containing information as to the characteristics of at least one moving element situated internally of a living body and in which a transmitting transducer fed with an electrically generated signal of supersonic frequency transmits stress waves through the body tissue to the moving element to be investigated, and a receiving transducer receives reflected waves and feeds a received electrical signal to a receiver containing a multiplier or other modulator for generating an output signal of difference frequency in the audible range, and the transmitting signal is subjected to frequency sweep and has a mean value and a sweep which produce frequency variations in the electrical difference signal arising from change of position of the element under investigation and motion of this element, the electrical difference signal being fed to a transducer for audible reproduction of a sound pattern representative of the variations of position and motion of the element.

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23 Claims

1. A method of obtaining a signal containing information as to the characteristics of at least one oscillatorily moving element situated internally of a living body, such method comprising:
- a. generating an alternating signal herein called the transmitting electrical signal;
  
  b. transducing the transmitting electrical signal into stress wave energy and radiating such energy at a transmitting station externally of the body and spaced a distance from the element and in a direction to be incident on the element;
  
  c. receiving, at a receiving station externally of the body, and spaced a distance from the element, at least part of the wave energy reflected from the element and transducing such received energy into a received electrical signal;
  
  d. operating on the received electrical signal to produce an electrical output signal of difference frequency as between the then existing transmitting electrical signal and the received electrical signal;
  
  e. sweeping the frequency of the transmitting electrical signal cyclically in sufficiently long sweeps, with a predetermined frequency vs. time pattern and sufficiently wide band frequency excursion range during each cycle so related to the distances of the transmitting and receiving stations from the element and the movement of the element that the difference frequency is in the audible range of frequencies containing an audibly discernible frequency pattern identifying variations in displacement of the position of the element and motion of the element; and
  
  f. transducing the audible range of frequencies containing such audibly discernible frequency pattern of the electrical output signal into an audible output signal.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
- - 2. A method according to claim 1 wherein the frequency sweep of the transmitting electrical signal is defined by an envelope of saw-tooth form such that the positional displacement of the moving element cyclically about its mean position, and the motion of the moving element, produce respective changes increasing the overall frequency excursion of the audible output signal.
  - 3. A method according to claim 2 wherein the envelope comprises time spaced portions of substantially linearly rising frequency, and intervening portions reverting abruptly to a datum level.
  - 4. A method according to claim 3 wherein the slope of the rising portions of the envelope is such that at the limit of the range of the moving element the difference frequency is still within the audible frequency range.
  - 5. A method according to claim 1 wherein the duration of the frequency sweep of the transmitting electrical signals is such that the output signal developed at the limit of the range of the moving element has a duration long enough to enable the user to discern different sound patterns for different motion characterisitics of the element.
  - 6. A method according to claim 5 wherein the ratio of the duration, in each cycle, of the output signal of difference frequency giving rise to the sound pattern to the transit time for the transmitted and reflected signal through the body tissue of moving element is at least 100.
  - 7. A method according to claim 1 wherein the mean value of the frequency of the transmitting electrical signal is sufficiently high for the doppler shift of frequency in the output signal to be comparable with the shift in frequency of the output signal due to positional displacement of the moving element occurring in each frequency sweep.
  - 8. A method according to claim 7 wherein the mean value of the frequency of the transmitting electrical signal is at least 1 MHz.
  - 9. A method according to claim 8 wherein said value is in the range 1 to 10 MHz.
  - 10. A method according to claim 1 wherein the magnitude of the frequency variation is such that the highest value of frequency is at least 0.3 of an octave above the lowest value.
  - 11. A method according to claim 1 wherein the duration of the frequency sweep of the transmitting electrical signals is such that the output signal developed at the limit of the range of the moving element in response to each frequency sweep has a duration of at least 10 milliseconds.

12. Apparatus for obtaining a signal containing information as the characteristics of at least one oscillatorily moving element situated internally of a living body, comprising, in combination:
- a. means for generating an alternating electrical signal;
  
  b. means connected to said generating means for transducing the alternating electrical signal, as a transmitting signal, into stress wave energy and for radiating such energy at a transmitting station externally of the body and spaced a distance from the element and in a direction to be incident on the element;
  
  c. means disposed for receiving, at a receiving station externally of the body, and spaced a distance from the element, at least part of the wave energy reflected from the element, and for transducing such received energy into a received electrical signal;
  
  d. means connected for processing the received electrical signal to produce an electrical output signal at the difference frequency between the then existing transmitting signal and the received electrical signal;
  
  e. means connected to said generating means for sweeping the frequency of the transmitting signal cyclically in sufficiently long sweeps, with a predetermined frequency vs. time pattern and sufficiently wide band frequency excursion range during each cycle so related to the distances of the transmitting and receiving stations from the element and the movement of the element that the difference frequency is in the audible range of frequencies containing an audibly discernible frequency pattern identifying variations in displacement of the position of the element and motion of the element; and
  
  f. means connected to said processing means for transducing the audible range of frequencies containing such audibly discernible frequency pattern of the electrical output signal into an audible output signal.
- View Dependent Claims (13, 14, 15, 16, 17, 18, 19, 20)
- - 13. Apparatus according to claim 12 wherein the means for sweeping the frequency of the transmitting electrical signal provides a frequency sweep defined by an envelope of saw-tooth form such that the positional displacement of the moving element cyclically about its mean position, and the motion of the moving element, produce respective changes increasing the overall frequency excursion of the audible output signal.
  - 14. Apparatus according to claim 13 wherein the envelope of variation comprising time spaced portions of substantially linearly rising frequency, and intervening portions reverting abruptly to a datum level.
  - 15. Apparatus according to claim 12 wherein the means for sweeping the frequency of the transmitting electrical signal provides a magnitude of the frequency variation such that at the limit of the range of the movable element, the output signal has a duration long enough to enable the user to discern different sound patterns for different motion characteristics of the element.
  - 16. Apparatus according to claim 15 wherein the ratio of the duration, in each cycle, of the output signal of difference frequency giving rise to the sound pattern to the transit time for the transmitted and reflected signal through the body tissue of moving element is at least 100.
  - 17. Apparatus according to claim 12 wherein the means for generating said transmitting electrical signal and the means for sweeping the frequency thereof provide a mean value of frequency therefor which is sufficiently high for the Doppler shift of frequency in the output signal to be comparable with the shift in frequency of the output signal due to positional displacement of the moving element occurring in each frequency sweep.
  - 18. Apparatus according to claim 17 wherein the mean value of the frequency of the transmitting electrical signal is at least 1 MHz.
  - 19. Apparatus according to claim 18 wherein said value is in the range 1 to 10 MHz.
  - 20. Apparatus according to claim 12 wherein the means for sweeping the frequency of the transmitting electrical signal provides a frequency variation therefor such that the highest value of frequency is at least 0.3 of an octave higher than the lowest value.

21. A method of obtaining a signal containing information as to the characteristics of displacement and motion of at least one moving element of a living organism situated internally of a living body, such method comprising the steps of:
- -a. generating an alternating electrical signal, herein called the transmitting electrical signal, and which is of ultrasonic frequency, transducing the transmitting electrical signal into stress wave energy, and transmitting such stress wave energy along a path extending from a transmitting station at the surface of said body to said element,b. receiving at a receiving station, also at the surface of said body, at least part of the wave energy reflected from the element along a path therefrom to said receiving station and frequency shifted by Doppler effect and time shifted by transit along said paths, and transducing said received energy into a received electrical signal,c. combining said Doppler shift of frequency and said time shift into a single resultant frequency shift by an intermodulating operation between a succession of frequency sweep electrical signals generated for said operation, the transmitting electrical signal, and the received electrical signal, and selectively filtering the intermodulation products to derive an electrical output signal of audible frequency persisting over each of a plurality of successive but time spaced periods in each of which change of position and change of motion of the element is reflected as a combined or resultant frequency change,d. and transducing said electrical output signal into an audio output signal.
- View Dependent Claims (22, 23)
- - 22. A method according to claim 21 wherein:
    - -a. the intermodulation operation comprises applying the frequency sweep signal to sweep the frequency of the electrical transmitting signal, and deriving a difference frequency signal between the swept frequency electrical transmitting signal and the delayed and Doppler shifted received electrical signal,b. the frequency of the transmitting electrical signal, and the duration and magnitude of the sweep signal, are selected respectively to provide a Doppler shift of frequency which is comparable or significant in relation to that produced in the output signal by said time delay in said paths, and to provide a duration for said time spaced periods in which the transduced electrical output signal persists at least great enough for recognition of different sound patterns.
  - 23. A method according to claim 21 wherein the duration of each period in which said audible output signal persists is at least 10 milliseconds.

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Current Assignee
Leslie Kay
Original Assignee
Leslie Kay
Inventors
Kay, Leslie
Primary Examiner(s)
Kamm, William E.

Application Number

US05/596,656
Time in Patent Office

817 Days
Field of Search

128/2 K, 128/2 R, 128/2 V, 128/2.05 RF, 128/2.05 S, 128/2.05 Z, 128/24 A, 73/67.5 R, 73/67.6, 73/67.7
US Class Current

600/541
CPC Class Codes

A61B 8/488 involving Doppler signals

G01S 15/88 Sonar systems specially ada...

Methods of and apparatus for ascertaining the characteristics of motion of inaccessible moving elements

First Claim

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Methods of and apparatus for ascertaining the characteristics of motion of inaccessible moving elements

First Claim

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Accused Products

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Abstract

20 Citations

23 Claims

Specification

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