Communicating information

US 8,396,360 B2
Filed: 03/29/2006
Issued: 03/12/2013
Est. Priority Date: 03/31/2005
Status: Active Grant

First Claim

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1. A communication method comprising:

transmitting non-coherent optical test signals onto an optical waveguide having substantially uniformly distributed inhomogeneities and a plurality of spaced-apart locations at which information is introduced, components of the transmitted test signals being caused by the waveguide to return in a distributed backscattering manner resulting from the uniformly distributed inhomogeneities as the test signals travel along the waveguide;

receiving first component signals backscattered by the distributed inhomogeneities located along the waveguide beyond a first location at which information is introduced;

receiving second component signals backscattered by the distributed waveguide inhomogeneities beyond a second location at which information is introduced, the second component signals being returned through the first location; and

,performing a subtraction operation involving the second component signals and the first component signals, the operation distinguishing information introduced at the second location from information introduced at the first location,wherein the test signals are formed as pairs of signal copies, the signal copies of each pair being transmitted onto the waveguide with a temporal offset relative to one another, wherein the non-coherent optical test signals are generated by an optical signal source having a coherence time less than the temporal offset.

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Abstract

The present invention relates to the communication of information where the information is introduced at a plurality of spaced apart locations onto an optical waveguide. The following steps are performed: (i) transmitting test signals onto the waveguide, components of the test signals being returned in a distributed manner along the waveguide; (ii) receiving first component signals returned from beyond a first location at which information is introduced; (iii) receiving second component signals returned from beyond a second location at which information is introduced, the second component signals being returned through the first location; and, (iv) processing the second component signals using the first component signals to distinguish information introduced at the second location from information introduced at the first location.

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10 Claims

1. A communication method comprising:
- transmitting non-coherent optical test signals onto an optical waveguide having substantially uniformly distributed inhomogeneities and a plurality of spaced-apart locations at which information is introduced, components of the transmitted test signals being caused by the waveguide to return in a distributed backscattering manner resulting from the uniformly distributed inhomogeneities as the test signals travel along the waveguide;
  
  receiving first component signals backscattered by the distributed inhomogeneities located along the waveguide beyond a first location at which information is introduced;
  
  receiving second component signals backscattered by the distributed waveguide inhomogeneities beyond a second location at which information is introduced, the second component signals being returned through the first location; and
  
  ,performing a subtraction operation involving the second component signals and the first component signals, the operation distinguishing information introduced at the second location from information introduced at the first location,wherein the test signals are formed as pairs of signal copies, the signal copies of each pair being transmitted onto the waveguide with a temporal offset relative to one another, wherein the non-coherent optical test signals are generated by an optical signal source having a coherence time less than the temporal offset.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
- - 2. A communication method as claimed in claim 1, wherein the return component signals arising from respective copies of each given pair are temporally realigned.
  - 3. A communication method as claimed in claim 1, wherein the return component signals arising from respective copies of each given pair are temporally realigned, and wherein realigned component signals are combined interferometrically.
  - 4. A communication method as claimed in claim 1, wherein the return component signals arising from respective copies of each given pair are temporally realigned, wherein the realigned component signals are combined interferometrically, and wherein the combined component signals succeed one another so as to form a time-distributed return signal, the combined first component signal and the combined second component signal being identifiable from their respective temporal positions in the return signal.
  - 5. A communication method as claimed in claim 1, wherein information is introduced by modulating the test signals.
  - 6. A communication method as claimed in claim 1, wherein an acoustic disturbance is applied to the waveguide in order to introduce information thereon.
  - 7. A communication method as claimed in claim 6, wherein the acoustic disturbance has the form of an audio signal.
  - 8. A communication method as claimed in claim 1, wherein the distributed backscattering comprises Rayleigh backscattering resulting from the inhomogeneities distributed in a substantially uniform manner along the waveguide.

9. A communication apparatus comprising:
- a source for transmitting a non-coherent optical test signal onto an optical waveguide having a substantially uniform distribution of inhomogeneities and a plurality of spaced-apart locations at which information is introduced;
  
  a receiver for receiving a component of the test signal that has been caused by the waveguide to backscatter return in a time distributed manner along the waveguide from the inhomogeneities substantially uniformly distributed along the waveguide;
  
  timer means for evaluating return times; and
  
  processor means configured to capture the returned test signal at a first return time and at a second return time, and to perform a subtraction operation involving the return test signal captured at the first and the second return times,wherein the test signal is formed as pairs of signal copies, the signal copies of each pair being transmitted onto the waveguide with a temporal offset relative to one another, and wherein the non-coherent optical test signal is generated by a source having a coherence time less than the temporal offset.
- View Dependent Claims (10)
- - 10. A communication apparatus as claimed in claim 9, wherein the backscattering comprises Rayleigh backscattering resulting from the inhomogeneities distributed in a substantially uniform manner along the waveguide.

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Current Assignee
British Telecommunications PLC (BT Group PLC)
Original Assignee
British Telecommunications PLC (BT Group PLC)
Inventors
Healey, Peter, Sikora, Edmund S R
Primary Examiner(s)
Liu, Li

Application Number

US11/887,382
Publication Number

US 20080219660A1
Time in Patent Office

2,540 Days
Field of Search

398/9, 398/16, 398/25, 398/28, 398/30, 398/31, 398/33, 398/151, 398/170, 398/183, 398/188, 398/212, 398/214, 385/12, 385/13, 385/31, 356/483
US Class Current

398/16
CPC Class Codes

G01D 5/35383 using multiple sensor devic...

H04B 10/071 using a reflected signal, e...

Communicating information

First Claim

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Abstract

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Communicating information

First Claim

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