Distributed Optical Sensing With Two-Step Evaluation
First Claim
1. A distributed optical sensing apparatus for determining of a primary quantity along a waveguide, the distributed optical sensing apparatus comprising:
- an electromagnetic radiation source adapted for coupling electromagnetic radiation into the waveguide to thereby generate in the waveguide a first response radiation and a second response radiation, the second response radiation being different from the first response radiation;
a detector device adapted for providing a first measurement signal indicative of the first response radiation;
the detector device being further adapted for providing a second measurement signal indicative of the second response radiation;
an evaluation unit adapted for deriving a secondary quantity based on the first measurement signal and the second measurement signal;
the evaluation unit being further adapted for deriving the primary quantity based on the secondary quantity and at least one of the first measurement signal and the second measurement signal;
the evaluation unit being further adapted for sampling the first measurement signal so as to generate a plurality of first values based on the first measurement signal;
the evaluation unit being further adapted for sampling the second measurement signal so as to generate a plurality of second values based on the second measurement signal;
wherein each of the first values and the second values corresponds to a spatial region of the waveguide;
the evaluation unit being further adapted for deriving a value of the primary quantity based on a value of the secondary quantity and at least one of a first value out of the plurality of first values and a second value out of the plurality of second values, wherein the value of the secondary quantity, the at least one of the first value and the second value, and the value of the primary quantity derived therefrom correspond to the same spatial region of the waveguide; and
the evaluation unit being further adapted for optimizing the secondary quantity different from the primary quantity.
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Abstract
According to an embodiment there is provided a distributed optical sensing apparatus for determining of a primary quantity along a waveguide, the distributed optical sensing apparatus comprising: an electromagnetic radiation source adapted for coupling electromagnetic radiation into the waveguide to thereby generate in the waveguide (e.g. by interaction with the waveguide) a first response radiation and a different second response radiation; a detector device adapted for providing a first measurement signal indicative of the first response radiation and a second measurement signal indicative of the second response radiation; an evaluation unit adapted for deriving a secondary quantity (e.g. a loss) based on the first measurement signal and the second measurement signal; the evaluation unit being further adapted for deriving the primary quantity based on the secondary quantity and at least one of the first measurement signal and the second measurement signal.
30 Citations
20 Claims
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1. A distributed optical sensing apparatus for determining of a primary quantity along a waveguide, the distributed optical sensing apparatus comprising:
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an electromagnetic radiation source adapted for coupling electromagnetic radiation into the waveguide to thereby generate in the waveguide a first response radiation and a second response radiation, the second response radiation being different from the first response radiation; a detector device adapted for providing a first measurement signal indicative of the first response radiation; the detector device being further adapted for providing a second measurement signal indicative of the second response radiation; an evaluation unit adapted for deriving a secondary quantity based on the first measurement signal and the second measurement signal; the evaluation unit being further adapted for deriving the primary quantity based on the secondary quantity and at least one of the first measurement signal and the second measurement signal; the evaluation unit being further adapted for sampling the first measurement signal so as to generate a plurality of first values based on the first measurement signal; the evaluation unit being further adapted for sampling the second measurement signal so as to generate a plurality of second values based on the second measurement signal; wherein each of the first values and the second values corresponds to a spatial region of the waveguide; the evaluation unit being further adapted for deriving a value of the primary quantity based on a value of the secondary quantity and at least one of a first value out of the plurality of first values and a second value out of the plurality of second values, wherein the value of the secondary quantity, the at least one of the first value and the second value, and the value of the primary quantity derived therefrom correspond to the same spatial region of the waveguide; and the evaluation unit being further adapted for optimizing the secondary quantity different from the primary quantity. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 10, 11, 12, 13, 14, 15, 16)
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9. The distributed optical sensing apparatus of 1, the first response radiation originates from electromagnetic radiation propagating in a first direction along the waveguide and the second response radiation originates from electromagnetic radiation propagating in a second direction opposite the first direction.
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17. A distributed optical sensing method for spatially distributed determining of a primary quantity along a waveguide, the method comprising:
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coupling electromagnetic radiation into the waveguide to thereby generate a first response radiation and a second response radiation which is different from the first response radiation; providing a first measurement signal indicative of the first response radiation and a second measurement signal indicative of the second response radiation; sampling the first measurement signal so as to generate a plurality of first values based on the first measurement signal; sampling the second measurement signal so as to generate a plurality of second values based on the second measurement signal; wherein each of the first values and the second values corresponds to a spatial region of the waveguide; deriving a secondary quantity based on the first measurement signal and the second measurement signal; deriving the primary quantity based on the secondary quantity and at least one of the first measurement signal and the second measurement signal; wherein deriving the primary quantity comprises deriving a value of the primary quantity based on a value of the secondary quantity and at least one of a first value out of the plurality of first values and a second value out of the plurality of second values, wherein the value of the secondary quantity, the at least one of the first value and the second value, and the value of the primary quantity derived therefrom correspond to the same spatial region of the waveguide; and wherein the value of the secondary quantity is optimized different from the value of the primary quantity. - View Dependent Claims (18)
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19. A non-transitory computer-readable medium on which instructions are stored that when executed by an optical sensing apparatus direct the optical sensing apparatus to perform method steps, the steps comprising:
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coupling electromagnetic radiation into a waveguide to thereby generate a first response radiation and a second response radiation which is different from the first response radiation; providing a first measurement signal indicative of the first response radiation and a second measurement signal indicative of the second response radiation; sampling the first measurement signal so as to generate a plurality of first values based on the first measurement signal; sampling the second measurement signal so as to generate a plurality of second values based on the second measurement signal; wherein each of the first values and the second values corresponds to a spatial region of the waveguide; deriving a secondary quantity based on the first measurement signal and the second measurement signal; deriving the primary quantity based on the secondary quantity and at least one of the first measurement signal and the second measurement signal; wherein deriving the primary quantity comprises deriving a value of the primary quantity based on a value of the secondary quantity and at least one of a first value out of the plurality of first values and a second value out of the plurality of second values, wherein the value of the secondary quantity, the at least one of the first value and the second value, and the value of the primary quantity derived therefrom correspond to the same spatial region of the waveguide; and wherein the value of the secondary quantity is optimized different from the value of the primary quantity.
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20. A distributed optical sensing apparatus for determining of a primary quantity along a waveguide, the distributed optical sensing apparatus comprising:
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an electromagnetic radiation source adapted for coupling electromagnetic radiation into the waveguide to thereby generate in the waveguide a first response radiation and a second response radiation, the second response radiation being different from the first response radiation; a detector device adapted for providing a first measurement signal indicative of the first response radiation; the detector device being further adapted for providing a second measurement signal indicative of the second response radiation; an evaluation unit adapted for deriving a secondary quantity based on the first measurement signal and the second measurement signal; the evaluation unit being further adapted for deriving the primary quantity based on the secondary quantity and at least one of the first measurement signal and the second measurement signal; the evaluation unit being further adapted for sampling the first measurement signal so as to generate a plurality of first values based on the first measurement signal; the evaluation unit being adapted for sampling the second measurement signal so as to generate a plurality of second values based on the second measurement signal; wherein each of the first values and the second values corresponds to a spatial region of the waveguide; the evaluation unit being further adapted for deriving a value of the primary quantity based on a value of the secondary quantity and at least one of a first value out of the plurality of first values and a second value out of the plurality of second values, wherein the value of the secondary quantity, the at least one of the first value and the second value, and the value of the primary quantity derived therefrom correspond to the same spatial region of the waveguide; and the evaluation unit being further adapted for deriving the value of the primary quantity temporally averaged over a first time duration and for deriving the value of the secondary quantity temporally averaged over a second time duration, wherein the first time duration is different from the second time duration.
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Specification