Fibre optic sensor method and apparatus

US 7,564,540 B2
Filed: 05/24/2005
Issued: 07/21/2009
Est. Priority Date: 05/21/2004
Status: Active Grant

First Claim

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1. A fibre optic monitoring system for detecting and locating disturbances along a predetermined length, which comprises:

a first fibre optic sensor which extends along said predetermined length and which continuously detects disturbances along the entire predetermined length and produces a first outputa second fibre optic sensor which extends along said predetermined length and which produces a second output which detects disturbances and their locations along the predetermined lengthmeans for analyzing the output of said first fibre optic sensor to identify disturbances sensed by said first fibre optic sensor which have at least one predetermined characteristicmeans for analyzing the output of said second fibre optic sensor to determine whether a disturbance was sensed by said second fibre optic sensor at a time approximately corresponding to the time at which the first fibre optic sensor sensed a disturbance with said one predetermined characteristic, and, if so, the location, along said predetermined length, of the disturbance sensed by the second fibre optic sensor.

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Abstract

This invention uses an interferometric fiber optic sensor, particularly a Sagnac or Michelson interferometer, in a first fiber to monitor a sensing length of the first fiber and to detect disturbances. Signals indicating disturbances are classified as being of interest or not of interest, depending on predetermined criteria. Disturbances of interest can be, for example, the breaking of reinforcement wires in concrete pipe, the breaking of wires in suspension cables, a fire, a pipeline leak, or an intrusion. A location sensor system is used to determine the location of disturbances of interest, and to confirm the interferometer signal to reduce noise. The location sensor system is a fiber optic sensor, such as a phase OTDR sensor or a Brillouin effect sensor, which can detect the location of events it senses. It is present either in the first fiber or in a separate fiber laid adjacent the first fiber along its sensing length, as for example in the same optical cable.

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20 Claims

1. A fibre optic monitoring system for detecting and locating disturbances along a predetermined length, which comprises:
- a first fibre optic sensor which extends along said predetermined length and which continuously detects disturbances along the entire predetermined length and produces a first outputa second fibre optic sensor which extends along said predetermined length and which produces a second output which detects disturbances and their locations along the predetermined lengthmeans for analyzing the output of said first fibre optic sensor to identify disturbances sensed by said first fibre optic sensor which have at least one predetermined characteristicmeans for analyzing the output of said second fibre optic sensor to determine whether a disturbance was sensed by said second fibre optic sensor at a time approximately corresponding to the time at which the first fibre optic sensor sensed a disturbance with said one predetermined characteristic, and, if so, the location, along said predetermined length, of the disturbance sensed by the second fibre optic sensor.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 19)
- - 2. Apparatus as claimed in claim 1, in which the first fibre optic sensor is an interferometric sensor.
  - 3. Apparatus as claimed in claim 1, in which the first fibre optic sensor is a Sagnac effect sensor.
  - 4. Apparatus as claimed in claim 1 in which the first fibre optic sensor is a Michelson sensor.
  - 5. Apparatus as claimed in claim 1, in which the second fibre-optic sensor is a phase-OTDR sensor.
  - 6. Apparatus as claimed in claim 1, in which the second fibre-optic sensor is a Brouillon-effect sensor.
  - 7. Apparatus as claimed in claim 1, in which said one predetermined characteristic is that the disturbance gives rise to a signal from the first fibre optic sensor, which signal has more than a predetermined peak energy.
  - 8. Apparatus as claimed in claim 1, in which said one predetermined characteristic is the that the disturbance gives rise to a signal from the first fibre optic sensor, which signal has a spectral distribution which has been predetermined as being of interest.
  - 9. Apparatus as claimed in claim 1, in which the first fibre optic sensor and the second fibre optic sensor share a common optical fibre for said predetermined length.
  - 10. Apparatus as claimed in claim 1 in which the first fibre optic sensor and second fibre optic sensor are in separate optical fibres which are laid adjacent to one another for the predetermined length.
  - 19. Apparatus as claimed in claim 1, in which the first fibre optic sensor is a Sagnac effect sensor and the second fibre-optic sensor is a phase-OTDR sensor.

11. A method for locating disturbances along a fibre optic detector system of predetermined length, which comprises:
- continuously sensing for disturbances along said predetermined length with a first optical fibre sensor and producing a first output signal from said first optical fibre sensor, when disturbances are detected,analyzing said output signal, to determine if it has at least one predetermined characteristic,simultaneously sensing for disturbances using second fibre optic sensor which extends along said predetermined length and which produces a second output which detects disturbances and their locations along the predetermined lengthwhen a disturbance is found by said first fibre optic sensor which has such predetermined characteristic, then analyzing the output of said second fibre optic sensor to determine whether a corresponding disturbance was sensed at a time approximately corresponding to the sensing by the first fibre optic sensor of said disturbance with said one predetermined characteristic, and, if so, determining the location of such corresponding disturbance along said predetermined length.
- View Dependent Claims (12, 13, 14, 15, 16, 17, 18, 20)
- - 12. A method as claimed in claim 11, in which the first fibre optic sensor is an interferometric sensor.
  - 13. A method as claimed in claim 11, in which the first fibre optic sensor is a Sagnac effect sensor.
  - 14. A method as claimed in claim 11 in which the first fibre optic sensor is a Michelson sensor.
  - 15. A method as claimed in claim 11, in which the second fibre-optic sensor is a phase-OTDR sensor.
  - 16. A method as claimed in claim 11, in which the second fibre-optic sensor is a Brouillon-effect sensor.
  - 17. A method as claimed in claim 11, in which said one predetermined characteristic is that the disturbance gives rise to a signal from the first fibre optic sensor, which signal has more than a predetermined peak energy.
  - 18. A method as claimed in claim 11, in which said one predetermined characteristic is that the disturbance gives rise to a signal from the first fibre optic sensor, which signal has a spectral distribution which has been predetermined as being of interest.
  - 20. A method as claimed in claim 11, in which the first fibre optic sensor is a Sagnac effect sensor and the second fibre-optic sensor is a phase-OTDR sensor.

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Current Assignee
Pure Technologies Limited (Xylem, Inc.)
Original Assignee
Pure Technologies Limited (Xylem, Inc.)
Inventors
Paulson, Peter O.
Primary Examiner(s)
Lee; Hwa (Andrew) S

Application Number

US11/569,419
Publication Number

US 20070247631A1
Time in Patent Office

1,519 Days
Field of Search

356/35.5, 356/73.1, 356/477
US Class Current

356/35.5
CPC Class Codes

G01M 11/083   by using an optical fiber i...

G01M 3/047   with photo-electrical detec...

G08B 13/186   using light guides, e.g. op...

Fibre optic sensor method and apparatus

First Claim

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Abstract

41 Citations

20 Claims

Specification

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Fibre optic sensor method and apparatus

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

41 Citations

20 Claims

Specification

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Solutions

Use Cases

Quick Links