Polarimetric optical frequency domain distributed strain sensor and method
First Claim
1. An apparatus for sensing distributed strain along an optical fiber, comprising:
- means for launching frequency varying optical energy having a selectively controlled polarization state into an optical fiber subject to strain and for providing a reference signal representative of the modulated optical energy, the polarization state of the optical energy controlled in response to a control signal;
means for mixing a portion of the optical energy backscattered from said fiber with a portion of the reference signal to produce a beat signal, the frequency of which is representative of a strain location along the fiber; and
means for sensing the polarization state of the backscattered optical energy and for controlling the polarization state of the optical energy launched by said first-mentioned means in response to the beat signal provided by said second-mentioned means.
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Abstract
An optical frequency domain distributed strain sensor for determining the strain distribution along an optical fiber includes an optical source that provides a polarization controlled optical interrogation signal having a frequency that varies in a recurring linear manner. The interrogation signal is injected into a sensor fiber embedded within a composite structure that places the fiber under strain. A portion of the interrogation signal is backscattered from the sensing fiber as a consequence of the strain experienced by the fiber and is mixed with a reference signal to produce beat frequency signals. The frequency of the beat signals is directly related the to position of backscatter in the sensing fiber while the amplitude of each beat frequency signal is directly related to the integrated strain-induced birefringence up to the backscatter point. An in-line fiber polarizer and an associated controllable polarizer control the polarization state of the interrogation signal in the sensor fiber to provide zero point sensitivity compensation and controllable testing for ambiguous strain points.
35 Citations
12 Claims
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1. An apparatus for sensing distributed strain along an optical fiber, comprising:
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means for launching frequency varying optical energy having a selectively controlled polarization state into an optical fiber subject to strain and for providing a reference signal representative of the modulated optical energy, the polarization state of the optical energy controlled in response to a control signal; means for mixing a portion of the optical energy backscattered from said fiber with a portion of the reference signal to produce a beat signal, the frequency of which is representative of a strain location along the fiber; and means for sensing the polarization state of the backscattered optical energy and for controlling the polarization state of the optical energy launched by said first-mentioned means in response to the beat signal provided by said second-mentioned means. - View Dependent Claims (2, 3, 4)
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5. An apparatus for sensing distributed strain along an optical fiber, comprising:
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means for launching frequency varying optical energy having a selectively controlled polarization state into an optical fiber subject to strain and for providing an electrical reference signal representative of the frequency modulation component of the optical energy, the polarization state of the optical energy controlled in response to a control signal; means for sensing a portion of the optical energy backscattered from said fiber and providing an electrical representation thereof and effecting mixing with the electrical reference signal to produce a beat signal, the frequency of which is representative of a strain location along the fiber; and means for sensing the polarization state of the backscattered optical energy and for controlling the polarization state of the optical energy launched by said first-mentioned means in response to the beat signal provided by said second-mentioned means. - View Dependent Claims (6, 7, 8)
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9. A method of sensing strain distributed along an optical fiber, comprising the steps of:
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launching frequency varying modulated optical energy having a selectively controllable polarization state into an optical fiber subject to strain; providing a reference signal representative of the modulated optical energy; mixing a portion of the optical energy backscattered from the fiber with a portion of the reference signal to produce a beat signal, the frequency of which is representative of strain at a location along the fiber; sensing the polarization state of the backscattered optical energy; and controlling the polarization state of the optical energy launched in the first-mentioned step in response to the beat signal provided by the second-mentioned means. - View Dependent Claims (10)
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11. A method of sensing strain at a selected location along an optical fiber, comprising the steps of:
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launching frequency varying optical energy having a selectively controllable polarization state into an optical fiber subject to strain; providing a reference signal representative of the modulated optical energy; sensing the polarization state of the backscattered optical energy from the fiber below a selected frequency; controlling the polarization state of the optical energy launched in the first-mentioned step in response to the sensed polarization state of the backscattered energy to minimize backscatter; and increasing the selected frequency to correspond to a selected location and mixing a portion of the optical energy backscattered from the fiber with a portion of the reference signal to produce a beat signal representative of strain at the selected location.
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12. A method of sensing strain at successive selected locations along an optical fiber, comprising the steps of:
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launching frequency varying optical energy having a selectively controllable polarization state into an optical fiber subject to strain; providing a reference signal representative of the modulated optical energy; sensing the polarization state of the backscattered optical energy from the fiber below a selected frequency; controlling the polarization state of the optical energy launched in the first-mentioned step in response to the sensed polarization state of the backscattered energy to minimize backscatter; increasing the selected frequency to correspond to a selected location and mixing a portion of the optical energy backscattered from the fiber with a portion of the reference signal to produce a beat signal representative of strain at the selected location; and repeating the second, third, and fourth steps at selectively incremented frequencies.
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Specification