Correlators

US 4,019,038 A
Filed: 03/04/1975
Issued: 04/19/1977
Est. Priority Date: 06/10/1971
Status: Expired due to Term

First Claim

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1. A method of cross-correlating two detected noise signals representative of respective random variations in a moving medium and having a net time delay between similar characteristics thereof, the method including the steps of deriving a pair of noise signals in the form of pulse trains representative of respective random variations, imposing a time delay on the noise signal derived from a leading one of the random variations, effecting a relative phase shift substantially equal to an odd number multiple of 90°

between the pair of noise signals, obtaining the product of the noise signal derived from a trailing one of the random variations and the delayed signal derived from the leading one of the random variations, after effecting the said phase shift, and adjusting the time delay imposed on the noise signal derived from the leading one of the random variations to reduce the said product to zero.

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Abstract

The speed of flow of a fluid is measured by transmitting across the flowing fluid upstream and downstream ultrasonic energy beams, transmitted beams, deriving electrical outputs therefrom, detecting the outputs to provide upstream and downstream detected signals representing noise imparted to the transmitted radiant energy beams by the flowing fluid, digitizing the detected signals, and imposing a time delay or delays on the upstream signal corresponding to the time delay between the upstream and downstream signals due to the spacing of the receiver means. A shift register imposes the time delay or delays and the transmission time of the shift register is controlled in response to the product of the signals.

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11 Claims

1. A method of cross-correlating two detected noise signals representative of respective random variations in a moving medium and having a net time delay between similar characteristics thereof, the method including the steps of deriving a pair of noise signals in the form of pulse trains representative of respective random variations, imposing a time delay on the noise signal derived from a leading one of the random variations, effecting a relative phase shift substantially equal to an odd number multiple of 90°
- between the pair of noise signals, obtaining the product of the noise signal derived from a trailing one of the random variations and the delayed signal derived from the leading one of the random variations, after effecting the said phase shift, and adjusting the time delay imposed on the noise signal derived from the leading one of the random variations to reduce the said product to zero.
- View Dependent Claims (2, 3)
- - 2. A method as claimed in claim 1, and transmitting radiant energy beams across a flowing fluid at positions spaced apart in the direction of flow, said noise signals being derived from said beams, whereby the adjustment of the imposed time delay is a measure of the fluid flow velocity.
  - 3. A method as claimed in claim 2, and digitizing the noise signals, imposing the delay by transmission of the noise signal derived from the leading random variation through a shift register, and adjusting the shift register switching frequency in accordance with the signal product, whereby the switching frequency is proportional to the fluid flow velocity.

4. A method of cross-correlating two detected noise signals representative of respective random variations in a moving medium and having a net time delay between similar characteristics thereof, the method including the steps of deriving a pair of noise signals in the form of pulse trains representative of respective random variations, imposing on the signal derived from a leading one of the random variations at least three successive delays, thereby to obtain at least three progressively delayed noise signals, obtaining at least three products each being the product of the noise signal derived from a trailing one of the random variations and a respective one of the first, second and third delayed signals, producing at least two combined noise signals each being produced by combining one of the said products with another of the said products, mixing together the combined noise signals to produce a mixed signal, and adjusting the delays imposed on the leading noise signal to reduce the mixed signal to zero.
- View Dependent Claims (5, 6, 7, 8)
- - 5. A method as claimed in claim 4, wherein an even number of delays are imposed on the noise signal derived from the leading random variation thereby to obtain an even number of delayed signals, and the two products from which each combined signal is formed are products of the noise signal derived from the trailing random variation and respective delay signals which are symmetrically disposed about a mean of all of the delays.
  - 6. A method as claimed in claim 5, wherein four delays are imposed on the noise signal derived from the leading random variation, one combined signal being formed from products which contain respective first and fourth delayed signals and the other combined signal being formed from products which contain respective second and third delayed signals.
  - 7. A method as claimed in claim 4, wherein the combined signals are each formed by combining the products of the noise signal derived from the trailing random variation and a predetermined one of the delayed signals and the product of the said noise signal derived from the trailing random variation and a respective one of the delayed signals.
  - 8. A method as claimed in claim 4, wherein the combined signals are mixed linearly to produce the mixed signal.

9. Apparatus for cross-correlating two detected noise signals representative of respective random variations in a moving medium and having a net time delay between similar characteristics thereof, the apparatus including circuits for deriving a pair of noise signals in the form of pulse trains representative of respective random variations, delay means for imposing a time delay on the signal derived from a leading one of said random variations, means for effecting a relative phase shift substantially equal to an odd number multiple of 90°
- between the pair of noise signals, means for obtaining the product of the signal derived from a trailing one of the random variations and the delayed signal derived from the leading one of the random variations, after effecting the said phase shift, and means for adjusting the time delay imposed on the noise signal derived from the leading one of the random variations to reduce the said product to zero.
- View Dependent Claims (10)
- - 10. Apparatus as claimed in claim 9, in which the circuits include digitizers and the delay means is a shift register.

11. Apparatus for cross-correlating two detected noise signals representative of respective random variations in a moving medium and having a net time delay between similar characteristics thereof, the apparatus including circuits for deriving a pair of noise signals in the form of pulse trains representative of respective random variations, delay means for imposing on the signal derived from a leading one of said random variations at least three successive delays, thereby to obtain at least three progressively delayed noise signals, means for obtaining at least three products each being the product of the noise signal derived from a trailing one of the random variations and a respective one of the first, second and third delayed signals, means for producing at least two combined noise signals each being produced by combining one of the said products with another of the said products, means for mixing together the combined noise signals to produce a mixed signal, and means for adjusting the delays imposed on the leading noise signal to reduce the mixed signal to zero.

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Current Assignee
Kent Instruments Limited
Original Assignee
Kent Instruments Limited
Inventors
Johnson, Peter Alan, Critten, Donald Louis
Primary Examiner(s)
Smith, Jerry

Application Number

US05/555,250
Time in Patent Office

777 Days
Field of Search

235/181, 235/151.34, 235/150.53, 73/194 EF, 324/160, 324/161, 324/175
US Class Current

708/425
CPC Class Codes

G01F 1/667   Arrangements of transducers...

G01F 1/7082   using acoustic detecting ar...

G01F 1/712   using auto-correlation or c...

G01P 5/18   by measuring the time taken...

G01P 5/24   by measuring the direct inf...

G06F 17/15   Correlation function comput...

G06G 7/1935   by converting at least one ...

G06J 1/005   for correlation; for convol...

Correlators

First Claim

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Abstract

35 Citations

11 Claims

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Correlators

First Claim

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Abstract

35 Citations

11 Claims

Specification

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