Sensing system

US 7,755,971 B2
Filed: 03/02/2006
Issued: 07/13/2010
Est. Priority Date: 03/04/2005
Status: Expired due to Fees

First Claim

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1. A seismic sensing system for sensing undersea seismic vibrations including:

an undersea optical fibre cable on a seabed comprising an optical fibre providing an optical communications link;

at least one modulator arrangement comprising;

an undersea vibration sensor in contact with the sea-bed so as to sense seismic vibrations and arranged to produce an electrical sensor signal in response to detecting a seismic vibration from which the presence of a seismic event can be detected; and

an undersea transmitter unit electronically coupled to the vibration sensor and arranged to transmit acoustic waves through sea-water, the transmitter including;

an electronic circuit for generating an acoustic signal in response to receiving the electrical sensor signal, anda transducer element arranged to transmit said acoustic signal as an acoustic wave through the sea-water to couple to said optical fibre cable,wherein, the transmitter unit is arranged to be retained in a raised position relative to the seabed by a flotation arrangement so as to transmit said acoustic wave in an angled downward direction through the seawater towards said optical fibre cable; and

wherein said acoustic wave modulates one or both of a pair of retarded copies of an optical signal applied to said optical link, one copy being retarded in a forward direction and the other copy being retarded in a reverse direction by a time-delay relative to said optical signal, from which modulation the presence of a seismic vibration can be inferred, wherein the time delay is related to the frequency response of the optical fibre cable to phase modulation caused by said acoustic signal coupling to said optical fibre cable.

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Abstract

The present invention relates to a sensing system, in particular to sensing system for sensing undersea seismic events. A vibration sensor is provided for sensing seismic vibrations on the sea bed is provided. The vibration sensor is electrically coupled to a transmitter unit, the transmitter unit being arranged to transmit, in use, an acoustic wave from which the presence of a seismic vibration can be inferred. The acoustic wave modulates light travelling along a nearby optical cable, the modulation being recovered at a distant monitoring station. A flotation arrangement is provide for retaining the transmitter unit in a raised position relative to the sea bed to facilitate the coupling of the acoustic wave to the optical cable.

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21 Claims

1. A seismic sensing system for sensing undersea seismic vibrations including:
- an undersea optical fibre cable on a seabed comprising an optical fibre providing an optical communications link;
  
  at least one modulator arrangement comprising;
  
  an undersea vibration sensor in contact with the sea-bed so as to sense seismic vibrations and arranged to produce an electrical sensor signal in response to detecting a seismic vibration from which the presence of a seismic event can be detected; and
  
  an undersea transmitter unit electronically coupled to the vibration sensor and arranged to transmit acoustic waves through sea-water, the transmitter including;
  
  an electronic circuit for generating an acoustic signal in response to receiving the electrical sensor signal, anda transducer element arranged to transmit said acoustic signal as an acoustic wave through the sea-water to couple to said optical fibre cable,wherein, the transmitter unit is arranged to be retained in a raised position relative to the seabed by a flotation arrangement so as to transmit said acoustic wave in an angled downward direction through the seawater towards said optical fibre cable; and
  
  wherein said acoustic wave modulates one or both of a pair of retarded copies of an optical signal applied to said optical link, one copy being retarded in a forward direction and the other copy being retarded in a reverse direction by a time-delay relative to said optical signal, from which modulation the presence of a seismic vibration can be inferred, wherein the time delay is related to the frequency response of the optical fibre cable to phase modulation caused by said acoustic signal coupling to said optical fibre cable.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
- - 2. An seismic sensing system as claimed in claim 1, wherein the flotation arrangement includes a buoyancy unit secured to the transmitter unit so as to urge the transmitter unit in an upward direction.
  - 3. An seismic sensing system as claimed in claim 1, wherein there is provided a tether arrangement for securing the transmitter unit to the sea bed.
  - 4. An seismic sensing system as claimed in claim 3, wherein the tether arrangement includes a weighted base.
  - 5. A seismic sensor system as claimed in claim 1 further including:
    - monitoring station for extracting information indicative of the seismic vibration from the phase modulated copies of said optical signal.
  - 6. An seismic sensing system as in claim 1, wherein the flotation arrangement retains the transmitter unit in a position below sea level.
  - 7. An seismic sensing system as in claim 2, wherein the buoyancy unit is maintained below sea level.
  - 8. A seismic sensing system as claimed in claim 1, wherein the time delay is greater than the inverse of the frequency of the modulation.
  - 9. A seismic sensing system as claimed in claim 1, wherein the time delay is selected to enable the sensing system to operate micro-phonically such that a sensing signal is a micro-phonic representation of the seismic disturbance.

10. A method of sensing an undersea seismic disturbance, including:
- sensing seismic vibrations on a sea bed using a vibration sensor, the vibration sensor being coupled to a transmitter unit;
  
  transmitting from the transmitter unit an acoustic signal from which the presence of a seismic vibration can be inferred, the transmitter unit being retained in a raised position relative to the sea bed; and
  
  detecting the acoustic signal at an undersea optical link on said seabed, wherein the acoustic signal causes a phase modulation of optical signals travelling along the optical link, wherein the optical signals are formed by pairs of signal copies, which copies of a pair have a time delay relative to one another, and wherein the respective signals of a pair are combined so as to extract modulated data, if any, in sensing signals from which the presence of a disturbance can be inferred,wherein the time delay is related to the frequency response of the optical link to the phase modulation caused by said acoustic signal coupling to said optical link.
- View Dependent Claims (11, 12, 13, 14, 15, 16)
- - 11. A method of sensing an undersea seismic disturbance as claimed in claim 10, wherein the time delay is greater than the inverse of the frequency of the modulation.
  - 12. A method as in claim 10, wherein the transmitter unit is retained in a position below sea level.
  - 13. A method as in claim 10, wherein the transmitter unit is coupled to a float which is retained in a position below sea level.
  - 14. A method as in claim 10, wherein the optical link is positioned on the sea bed.
  - 15. A method of sensing an undersea seismic disturbance as claimed in claim 10, wherein the time delay of said optical sensing signals is longer for lower detectable acoustic frequencies.
  - 16. A method of sensing an undersea seismic disturbance as claimed in claim 10, wherein the time delay is selected such that the sensing signals are a micro-phonic representation of the seismic disturbance.

17. A communication system for sensing underwater seismic vibrations including:
- an underwater seismic vibration sensor arranged in operation to electronically transmit a sensor signal providing information relating to seismic vibrations to an underwater transmitter unit;
  
  an underwater transmitter unit arranged to receive said transmitted electronic information from said seismic vibration sensor, the transmitter unit including;
  
  an electronic circuit for generating an acoustic signal in response to the received electronic sensor signal, anda transducer element for wirelessly transmitting acoustic waves underwater;
  
  an underwater optical link arranged such that the transmitted acoustic waves couple to said optical link and modulate light travelling along the link; and
  
  a monitoring station for detecting the modulation,wherein the light modulated comprises at least one a pair of retarded signal copies, one signal copy being retarded in a forward direction by a time delay, the other in a backward direction by said time delay, wherein the time delay of the signal copies is related to the frequency response of the underwater optical link to phase modulation generated by said acoustic waves transmitted by said transducer coupling to said underwater optical link.
- View Dependent Claims (18, 19, 20)
- - 18. A communication system as in claim 17, further comprising a float connected to the transmitter unit to retain the transmitter unit at a position above the bottom surface of the water but below the top surface of the water.
  - 19. A communication system as in claim 18, wherein the float is maintained at a position above the bottom surface of the water but below the top surface of the water.
  - 20. A communication system as in claim 17, wherein the transmitter unit is retained in a position above the optical link.

21. A method of sensing an undersea seismic disturbance, including:
- sensing seismic vibrations on a sea bed using a vibration sensor, the vibration sensor being coupled to a transmitter unit;
  
  transmitting from the transmitter unit at least one acoustic signal from which the presence of a seismic vibration can be inferred, the transmitter unit being retained in a raised position relative to the sea bed; and
  
  detecting the acoustic signal at an optical link;
  
  wherein the acoustic signal causes a phase modulation of optical signals travelling along the optical link;
  
  wherein the optical signals are formed by pairs of signal copies, which copies of a pair have a time delay relative to one another, and wherein the respective signals of a pair are combined so as to extract modulated data, if any, in the sensing signals from which the presence of a disturbance can be inferred; and
  
  wherein the time delay is greater than the inverse of the frequency of the modulation.

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Current Assignee
British Telecommunications PLC (BT Group PLC)
Original Assignee
British Telecommunications PLC (BT Group PLC)
Inventors
Shackleton, Mark A, Tateson, Jane E, Heatley, David J T, Roadknight, Christopher M
Primary Examiner(s)
Hughes; Scott A
Assistant Examiner(s)
BREIER, KRYSTINE E

Application Number

US11/885,400
Publication Number

US 20080219093A1
Time in Patent Office

1,594 Days
Field of Search

367/15, 367/16, 367/17, 367/18, 367/19, 367/20
US Class Current

367/16
CPC Class Codes

G01V 1/16 Receiving elements for seis...

G01V 1/3808 Seismic data acquisition, e...

Sensing system

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Sensing system

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Abstract

Citations

21 Claims

Specification

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