Audible techniques for the perception of nondestructive evaluation information

US 5,285,521 A
Filed: 04/01/1991
Issued: 02/08/1994
Est. Priority Date: 04/01/1991
Status: Expired due to Fees

First Claim

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1. A method for using the abilities of the human auditory system to interpret information about, and to identify, characteristics of a material under analysis, comprising the steps of:

sensing acoustic and/or electromagnetic conditions in said material, said conditions being indicative of said characteristics of said material;

creating an electrical signal of said acoustic and/or electromagnetic conditions, said electrical signal having;

(a) a frequency proportional to frequency characteristics of said acoustic and/or electromagnetic conditions;

(b) an amplitude proportional to amplitude characteristics of said acoustic and/or electromagnetic conditions; and

(c) timing correlated to said acoustic and/or electromagnetic conditions;

measuring and storing values for said frequency, amplitude, and timing of said electrical signal;

identifying patterns in said frequency, amplitude, and timing values by comparing to previously identified patterns of frequency, amplitude, and timing values determined through prior experimentation to be produced by specific material characteristics;

creating an acoustic signal pre-selected to be associated with said identified patterns of frequency, amplitude and timing values; and

transmitting said acoustic signal to a human listener, wherein said listener has been trained to associate said acoustic signal with said specific material characteristics.

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Abstract

A method and apparatus for utilizing the sound and pattern recognition capabilities of the human auditory system, which takes information contained in typical instrumentation signals in the form of amplitude, frequency, and time characteristics, and converts this information into sound qualities and characteristics which are recognizable by the human listener. The method and apparatus digitizes the analog amplitude, frequency, and time information, and selects appropriate sound characteristics into which it may encode this information in standardized form that is recognizable to the human listener. The method allows for the testing or inspection of materials using nondestructive evaluation techniques in a manner that allows the tester to interpret the information provided by the testing system, either exclusively through his auditory senses, or through his auditory senses in conjunction with visual indicators.

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12 Claims

1. A method for using the abilities of the human auditory system to interpret information about, and to identify, characteristics of a material under analysis, comprising the steps of:
- sensing acoustic and/or electromagnetic conditions in said material, said conditions being indicative of said characteristics of said material;
  
  creating an electrical signal of said acoustic and/or electromagnetic conditions, said electrical signal having;
  
  (a) a frequency proportional to frequency characteristics of said acoustic and/or electromagnetic conditions;
  
  (b) an amplitude proportional to amplitude characteristics of said acoustic and/or electromagnetic conditions; and
  
  (c) timing correlated to said acoustic and/or electromagnetic conditions;
  
  measuring and storing values for said frequency, amplitude, and timing of said electrical signal;
  
  identifying patterns in said frequency, amplitude, and timing values by comparing to previously identified patterns of frequency, amplitude, and timing values determined through prior experimentation to be produced by specific material characteristics;
  
  creating an acoustic signal pre-selected to be associated with said identified patterns of frequency, amplitude and timing values; and
  
  transmitting said acoustic signal to a human listener, wherein said listener has been trained to associate said acoustic signal with said specific material characteristics.
- View Dependent Claims (2, 3, 4, 5)
- - 2. The method of claim 1, wherein said step of identifying patterns in said frequency, amplitude, and timing values comprises the steps of:
    - storing said previously identified patterns of frequency, amplitude, and timing values known to be produced by specific material characteristics;
      
      storing information for generating acoustic signals selected to be associated with said previously identified patterns;
      
      selecting at least one of said stored previously identified patterns;
      
      comparing said measured and stored values for said frequency, amplitude, and timing of said electrical signal, with each of said selected stored patterns;
      
      matching said measured and stored values for said frequency, amplitude, and timing of said electrical signal, with at least one of said selected stored patterns;
      
      selecting said stored information for generating acoustic signals, said information associated with said matched, selected stored patterns;
      
      wherein said selected stored information is capable of generating an acoustic signal recognizable to an observer as being associated with said specific material characteristics.
  - 3. The method of claim 1, wherein said step of creating an acoustic signal comprises creating a signal with variations in at least one of a plurality of sound characteristics consisting of pitch, loudness, damping, direction, duration, repetition, and rest, in an arrangement preselected to be associated with said identified patterns of frequency, amplitude, and timing values.
  - 4. The method of claim 1, wherein said step of transmitting said acoustic signal to a human listener comprises providing at least two channels of said acoustic signal, wherein said channels are capable of providing signal information to said human listener.
  - 5. The method of claim 1 further comprising the steps of converting said electrical signal indicative of said acoustic and/or electromagnetic conditions into a visually perceptible graphic display having characteristics correlated to said electrical signal.

6. A method for using the abilities of the human auditory system to interpret information about, and to identify, characteristics of a material under analysis, comprising the steps of:
- transmitting acoustic and/or electromagnetic waves into said material;
  
  receiving reflected and generated acoustic and/or electromagnetic waves from said material, said reflected and generated waves having characteristics indicative of said characteristics of said material;
  
  creating an electrical signal indicative of said received reflected and generated acoustic and/or electromagnetic waves, said electrical signal having;
  
  (a) a frequency proportional to frequency characteristics of said received acoustic and/or electromagnetic waves;
  
  (b) an amplitude proportional to amplitude characteristics of said received acoustic and/or electromagnetic waves; and
  
  (c) timing correlated to said received acoustic and/or electromagnetic waves;
  
  digitizing values for said frequency, amplitude, and timing of said electrical signal;
  
  storing said digitized values for said frequency, amplitude, and timing of said electrical signal;
  
  identifying patterns in said frequency, amplitude, and time values by comparing to previously identified patterns of frequency, amplitude, and timing values determined through prior experimentation to be produced by specific material characteristics;
  
  creating an acoustic signal pre-selected to be associated with said identified patterns of frequency, amplitude, and time values; and
  
  transmitting said acoustic signal to a human listener;
  
  wherein said listener has been trained to associate said acoustic signal with said specific material characteristics.

7. An apparatus for encoding information about characteristics of a material under analysis into auditory acoustic behavior capable of interpretation by the human auditory system, comprising:
- means for sensing acoustic and/or electromagnetic conditions in said material, said conditions being indicative of said characteristics of said material;
  
  means for creating an electrical signal indicative of said acoustic and/or electromagnetic conditions, said electrical signal having;
  
  (a) a frequency proportional to frequency characteristics of said acoustic and/or electromagnetic conditions;
  
  (b) an amplitude proportional to amplitude characteristics of said acoustic and/or electromagnetic conditions; and
  
  (c) timing correlated to said acoustic and/or electromagnetic conditions;
  
  means for measuring values of said frequency, amplitude, and timing of said electrical signal;
  
  microprocessor means for storing said measured values for said frequency, amplitude, and timing of said electrical signal, and comparing said measured values to previously stored values of frequency, amplitude, and timing known to be produced by specific material characteristics, said microprocessor means further identifying and correlating patterns in said stored frequency, amplitude, and timing values with similar patterns previously stored and known to be produced by specific material characteristics, said microprocessor means further storing information necessary for the creation of an acoustic signal to be selected from stored information for a plurality of acoustic signals, said stored acoustic signal information associated with said identified patterns of frequency, amplitude, and timing values;
  
  means for creating an acoustic signal preselected to be associated with said identified patterns of frequency, amplitude, and timing values; and
  
  means for transmitting said acoustic signal to a human listener, wherein said listener has been trained to associate said acoustic signal with said specific material characteristics.
- View Dependent Claims (8, 9, 10, 11, 12)
- - 8. The apparatus of claim 7, wherein said means for transmitting said acoustic signal to a human listener comprises means for transmitting at least two channels of said acoustic signal.
  - 9. The apparatus of claim 7 further comprising means for converting said electrical signal indicative of said acoustic and/or electromagnetic conditions into a visually perceptible graphic display having characteristics correlated to said electrical signal.
  - 10. The apparatus of claim 7, wherein said means for creating an electrical signal comprises a signal amplifier and a signal generator.
  - 11. The apparatus of claim 7, wherein said means for measuring values of said frequency, amplitude, and timing of said electrical signal comprises an electronic analog to digital converter.
  - 12. The apparatus of claim 7, wherein said means for creating an acoustic signal comprises an audio frequency signal amplifier and at least one audio speaker device.

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Current Assignee
Southwest Research Institute 6220 Culebra Road San Antonio TX
Original Assignee
Southwest Research Institute
Inventors
Cervantes, Richard A., Polk, Kent D., Holt, Amos E.
Primary Examiner(s)
Fleming, Michael R.
Assistant Examiner(s)
Doerrler, Michelle

Application Number

US07/678,741
Time in Patent Office

1,044 Days
Field of Search

381/51-53, 395/2.79, 29/4
US Class Current

704/270
CPC Class Codes

G01N 29/0609 Display arrangements, e.g. ...

Audible techniques for the perception of nondestructive evaluation information

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Audible techniques for the perception of nondestructive evaluation information

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