Acoustic transit time measuring system
First Claim
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1. A method for determining a physical quantity within a measuring space by use of acoustic transit time measurement, using at least one acoustic transmitting transducer and at least one acoustic receiving transducer, comprising the steps of:
- transmitting an acoustic signal;
selecting said acoustic signal at least partly on a type of signal processing and detection of at least two points in an acoustic received signal and/or a signal derived from that received signal again selected at least partly on the basis of the type of processing to be used, the at least two points being situated respectively on the slope and at the top of said acoustic received signal being used for combined signal top-signal slope detection with the aid of a specifically adapted signal processing technique.
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Abstract
A method to determine a physical quantity within a measuring space by means of acoustic transit time measurement uses an acoustic transducer as a transmitter and an acoustic transducer as a receiver. The two functions can also be combined in a single transducer. The acoustic transit time measurement involves a time-dependent comparison between the shape of an acoustic transmitted signal selected at least partly on the basis of the type of signal processing to be used and at least two points in an acoustic received signal and/or a signal derived from that received signal again selected at least partly on the basis of the type of processing to be used. An apparatus for this method could be equipped with an acoustic signal-generating transducer, an acoustic signal detection transducer, a signal processing device which selects measuring points from the signal, and detection algorithm adapted to the shape of the signal.
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Citations
11 Claims
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1. A method for determining a physical quantity within a measuring space by use of acoustic transit time measurement, using at least one acoustic transmitting transducer and at least one acoustic receiving transducer, comprising the steps of:
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transmitting an acoustic signal;
selecting said acoustic signal at least partly on a type of signal processing and detection of at least two points in an acoustic received signal and/or a signal derived from that received signal again selected at least partly on the basis of the type of processing to be used, the at least two points being situated respectively on the slope and at the top of said acoustic received signal being used for combined signal top-signal slope detection with the aid of a specifically adapted signal processing technique. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
determining a weighted transit time of the acoustic signal using prior knowledge, wherein said prior knowledge including models for a medium and/or measuring space, and said prior knowledge being a distortion to which the signal is subjected within the measuring space.
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3. The method as claimed in claim 1, comprising the step of
calculating the transit time of the acoustic signal with the help of a method which determines a time-dependent similarity between two signals, which have been derived whether or not using medium and measuring space models from the received and transmitted signal respectively. -
4. The method as claimed in claim 3, further comprising the step of using an analysis in a time-frequency domain to calculate the time-dependent similarity between two signals, for estimating the transit time of an acoustic signal.
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5. The method as claimed in claim 3, further comprising the steps of using time-discrete calculation methods based on a model of the time-dependent similarity between two signals, and using regression to fit the model to the time-discrete similarity between the signals to avoid the limitations of time discrete methods.
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6. The method as claimed in claim 1, further comprising the step of using a low-frequency transmitted signal to avoid loss of information over the acoustic path as a result of excessive damping over a long measurement path and/or reflection from geometric obstructions which are small relative to the wavelength of the acoustic signal used.
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7. The method as claimed in claim 1, further comprising the step of using a transmitted signal with characteristic, pre-known, time-dependent frequency course to reduce measuring errors arising from acoustic signal distortion due to reflections and non-stationary phenomena within the measuring space.
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8. The method as claimed in claim 1, further comprising the step of:
determining a physical quantity within a measuring space based on other quantities using the same or a different measuring technique over a different measurement path under partially equal conditions.
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9. The method as claimed in claim 1, further comprising the step of:
determining weighted transit times with a signal processing technique based on medium and measuring space models and sound velocity changes within the measuring space, which may or may not be cyclic, assuming constant acoustic signal paths and invariant medium conditions.
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10. A method for determining a physical quantity within a measuring space by use of acoustic transit time measurement, using at least one acoustic transmitting transducer and at least one acoustic receiving transducer, comprising the steps of:
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transmitting an acoustic signal by said at least one acoustic transmitting transducer wherein said acoustic signal being reflected through the measuring space one or more times via acoustic reflection before being received by said at least one acoustic receiving transducer;
selecting said acoustic signal at least partly on a type of signal processing and detection of at least two points in an acoustic received signal and/or a signal derived from that received signal again selected at least partly on the basis of the type of processing to be used.
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11. A method for determining a physical quantity within a measuring space by use of acoustic transit time measurement, using at least one acoustic transmitting transducer and at least one acoustic receiving transducer, said method comprising the steps of
using signal processing based on a comparison in a discrete manner between a) a predicted distorted acoustic signal transmitted through said space, based on models for the medium and measuring space concerning the distortion to which the signal is subjected within the measuring space and on the transmitted signal, and b) an actual measured acoustic signal transmitted through said space to determine the acoustic transit time, and using at least two selected points located on a slope and at a top of the received acoustic signal respectively, the at least two selected points being used for combined signal top-signal slope detection with the aid of a specially adapted signal processing technique.
Specification
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Current AssigneeWilhelm Henricus Jurriaan Van Schaik
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Original AssigneeWilhelm Henricus Jurriaan Van Schaik
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InventorsVan Schaik, Wilhelm Henricus Jurriaan
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Primary Examiner(s)Williams, Hezron
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Assistant Examiner(s)SAINT SURIN, JACQUES M
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Application NumberUS09/719,555Time in Patent Office1,127 DaysField of Search735/97, 736/44, 735/79, 735/99, 736/00, 736/02, 73/614.6, 73/614.7, 738/610.5, 736/59US Class Current73/597CPC Class CodesG01N 2291/02881 TemperatureG01N 2291/045 External reflections, e.g. ...G01N 29/024 by measuring propagation ve...G01N 29/40 by amplitude filtering, e.g...
