EVALUATING THE POSITION OF A DISTURBANCE

US 20090014634A1
Filed: 06/01/2006
Published: 01/15/2009
Est. Priority Date: 06/02/2005
Status: Active Grant

First Claim

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1. A position sensor including:

an optical waveguide;

a transmission stage for launching a sensing signal into the waveguide;

a receiving stage arranged to receive a returned sensing signal, which returned sensing signal is a time distributed signal derived from backscattered components of the sensing signal, the waveguide being arranged along a path having a plurality of overlap regions such that a disturbance in an overlap region causes a first disturbance feature and a second disturbance feature in the returned sensing signal; and

, monitoring means for monitoring the returned signal, such that a respective time of return can be associated with the first disturbance feature and with the second disturbance feature.

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Abstract

The present invention relates to a method of and apparatus for evaluating the position of a disturbance, in particular using a waveguide having a plurality of overlap regions. A position sensor is provided including: an optical waveguide; a transmission stage for launching a sensing signal into the waveguide; a receiving stage arranged to receive a returned sensing signals which returned sensing signal is a time distributed signal derived from backscattered components of the sensing signal, the waveguide being arranged along a path having a plurality of overlap regions such that a disturbance in an overlap region causes a first disturbance feature and a second disturbance feature in the returned sensing signal; and, monitoring means for monitoring the returned signal, such that a respective time of return can be associated with the first and second disturbance feature. Both return features can then be used to evaluate the position of the disturbance so as to enhance the resolution of the position sensor.

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27 Claims

1. A position sensor including:
- an optical waveguide;
  
  a transmission stage for launching a sensing signal into the waveguide;
  
  a receiving stage arranged to receive a returned sensing signal, which returned sensing signal is a time distributed signal derived from backscattered components of the sensing signal, the waveguide being arranged along a path having a plurality of overlap regions such that a disturbance in an overlap region causes a first disturbance feature and a second disturbance feature in the returned sensing signal; and
  
  , monitoring means for monitoring the returned signal, such that a respective time of return can be associated with the first disturbance feature and with the second disturbance feature.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21)
- - 2. A position sensor as claimed in claim 1, wherein at least some of the overlap regions include a respective self-crossing point at which the waveguide path intersects itself.
  - 3. A position sensor as claimed in claim 2, wherein the path includes a plurality of first sensing portions and a plurality of second sensing portions, and wherein, at a plurality of respective self-crossing points, each first sensing portion overlaps with each second sensing portion.
  - 4. A position sensor as claimed in claim 3, wherein the first sensing portions generally extend side by side in a first direction.
  - 5. A position sensor as claimed in claim 3, wherein the second sensing portions generally extend side by side in a second direction.
  - 6. A position sensor as claimed in claim 2, wherein the self-crossing points are disposed as a regular array.
  - 7. A position sensor as claimed in claim 1, wherein the sensing signals are pulses, each having a path resolution length associated therewith.
  - 8. A position sensor as claimed in claim 7, wherein at least some neighbouring self-crossing points are connected together by both a short path and by a long path, the long path being at least substantially equal to the path resolution length.
  - 9. A position sensor as claimed in claim 7, wherein the geographical separation between at least some of the self-crossing point is less than the path resolution length.
  - 10. A position sensor as claimed in claim 9, wherein the short path between neighbouring self-crossing points is be less than the path resolution length.
  - 11. A position sensor as claimed in claim 7, wherein an extension stage is provide between adjacent first sensing portions and/or between adjacent second sensing portions and wherein the path length of each extension stage is at least substantially greater than the path resolution length.
  - 12. A position sensor as claimed in claim 11, wherein each extension stage is formed by a respective coiled portion of waveguide.
  - 13. A position sensor as claimed in claim 11, wherein the extension stage is arranged such that it is protected from disturbances.
  - 14. A position sensor as claimed in claim 1, wherein the waveguide is a flexible waveguide.
  - 15. A position sensor as claimed in claim 1, wherein the sensing signal is formed as pairs of signal copies.
  - 16. A position sensor as claimed in claim 15, wherein the transmission stage is arranged to launch the signal copies onto the waveguide with a temporal offset relative to one another.
  - 17. A position sensor as claimed in claim 16, wherein the receiving stage is arranged to temporally re-align the signal copies.
  - 18. A position sensor as claimed in claim 1, wherein the transmission stage and the receiving stage are formed in common by an interferometer stage.
  - 19. A position sensor as claimed in claim 1, wherein the monitoring means includes timer means for monitoring the return time of the first disturbance feature and the second disturbance feature.
  - 20. A position sensor as claimed in claim 1, wherein the waveguide is a waveguide formed from a material that gives rise to Rayleigh backscattering of light at a wavelength of 1440 nm.
  - 21. A position sensor as claimed in claim 20, wherein the waveguide has a light-guiding medium formed substantially from a glass material.

22. A method of sensing position, including the steps of. (i) transmitting a sensing signal along a waveguide;
- (ii) monitoring a returned sensing signal, the returned sensing signal being derived from components of the sensing signal that are returned by a process of distributed backscattering as the sensing signal propagates along the waveguide, wherein the waveguide is arranged along a path having a plurality of overlap regions such that a disturbance in an overlap region causes a first disturbance feature and a second disturbance feature in the returned sensing signal, which first and second disturbance features correspond to respective spaced apart positions along the fibre path; and
  
  , (iii) using a temporal characteristic in the first and second disturbance features to determine which of the overlap regions the disturbance originates from.
- View Dependent Claims (23, 24, 25, 26, 27)
- - 23. A method as claimed, in claim 22, wherein the process of distributed backscattering is predominantly Rayleigh backscattering.
  - 24. A method as claimed in claim 22, wherein the sensing signals have a wavelength or wavelength range such that the waveguide operates as a single mode waveguide for the sensing signals.
  - 25. A method as claimed in claim 22, wherein the temporal characteristic is a respective returned time corresponding to the first and the second disturbance feature.
  - 26. A method as claimed in claim 22, wherein the sensing signal is formed by a pair of signal copies, which signal copies are copies of one another.
  - 27. A method as claimed in claim 26, wherein the signal copies of a pair travel in the same sense as one another in a forward direction along the waveguide, and subsequently in the same sense as one another in a return direction along the waveguide.

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Current Assignee
British Telecommunications PLC (BT Group PLC)
Original Assignee
British Telecommunications PLC (BT Group PLC)
Inventors
Sikora, Edmund S R, Healey, Peter

Granted Patent

US 8,003,932 B2
Time in Patent Office

Days
Field of Search
US Class Current

250/227.140
CPC Class Codes

G01D 5/35306   using an interferometer arr...

G01D 5/35361   using elastic backscatterin...

G01M 11/3145   Details of the optoelectron...

EVALUATING THE POSITION OF A DISTURBANCE

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

140 Citations

27 Claims

Specification

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EVALUATING THE POSITION OF A DISTURBANCE

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

140 Citations

27 Claims

Specification

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Solutions

Use Cases

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