Fiber optic sound velocity profiler
First Claim
1. A system for determining a velocity profile of sound in a medium comprising:
- an optical cable suspended in the medium, the optical cable having Bragg grating sensors regularly spaced along its length;
an optical pulse generator for sending an optical pulse into the optical cable;
an acoustic pulse generator for sending an acoustic pulse generally along the length of the optical cable, the acoustic pulse causing local strain in the optical cable, the local strain causing the Bragg grating sensors in the vicinity of the strain to selectively reflect the optical pulse back in the direction of the optical pulse generator;
a timer for receiving the reflected optical pulse and measuring a time of arrival of the reflected optical pulse; and
a processor for computing the sound velocity profile as a function of the time of arrival.
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Accused Products
Abstract
A fiber optic cable, coated to increase its sensitivity to acoustic press, is towed through a medium. The optical fiber contains Bragg grating sensors at regular intervals along its length. A steerable array of transducers sends a pulse of sound in the direction of the optical cable while broadband pulses of light are directed down the optical fiber. The pulses of light are selectively reflected back according to the spacing between the Bragg gratings. The sound pressure field causes a local strain in the fiber, thus changing the grating spacing. The sound velocity profile along the length of the optical cable is computed by measuring the amount of time necessary for successive Bragg gratings to respond to the acoustic pressure associated with the advancing wave front of the acoustic pulse.
31 Citations
10 Claims
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1. A system for determining a velocity profile of sound in a medium comprising:
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an optical cable suspended in the medium, the optical cable having Bragg grating sensors regularly spaced along its length; an optical pulse generator for sending an optical pulse into the optical cable; an acoustic pulse generator for sending an acoustic pulse generally along the length of the optical cable, the acoustic pulse causing local strain in the optical cable, the local strain causing the Bragg grating sensors in the vicinity of the strain to selectively reflect the optical pulse back in the direction of the optical pulse generator; a timer for receiving the reflected optical pulse and measuring a time of arrival of the reflected optical pulse; and a processor for computing the sound velocity profile as a function of the time of arrival. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A method for determining a sound velocity profile in a medium comprising the steps of:
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sending an optical pulse from a source into an optical cable in a first direction along a length of the optical cable; sending an acoustical pulse along the length of the optical cable, the acoustical pulse creating areas of local strain in the optical cable as the acoustical pulse progresses along the optical cable, the optical cable selectively reflecting portions of the optical pulse from the areas of local strain, the reflected portions traveling in a second direction opposite the first direction; measuring arrival times of the reflected portions at the source; and computing the sound velocity as a function of the arrival times. - View Dependent Claims (9)
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10. A method for determining a true speed of a platform comprising the steps of:
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towing an optical cable from the platform; estimating a towing angle of the optical cable as a function of a known weight per unit length of the optical cable, a known diameter of the optical cable and an estimated speed of the platform; sending an optical pulse from a source into the optical cable in a first direction along a length of the optical cable; sending an acoustical pulse along the length of the optical cable in a second direction corresponding to the estimated towing angle, the acoustical pulse creating areas of local strain in the optical cable as the acoustical pulse progresses along the optical cable, the optical cable selectively reflecting portions of the optical pulse from the areas of local strain, the reflected portions traveling in a third direction opposite the first direction; steering the acoustical pulse in a predetermined pattern about the second direction; determining a true towing angle at which the reflected portions of the optical pulse are maximized; and determining the true speed as a function of the true towing angle, the weight per unit length of the optical cable and the diameter of the optical cable.
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Specification