Distributed acoustic sensing system with variable spatial resolution
First Claim
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1. A distributed acoustic sensing system based on coherent Rayleigh scattering, comprising:
- a pulse generator, which generates an optical pulse;
an interferometer, further comprising;
a first arm, wherein a first portion of the optical pulse travels through the first arm;
a second arm, wherein a second portion of the optical pulse travels through the second arm;
a first optical switch coupled to the second arm and to a first plurality of fiber coils; and
a second optical switch coupled to the first plurality of fiber coils;
wherein the first optical switch and the second optical switch each comprise a plurality of ports;
a photodetector assembly coupled to the interferometer, wherein the photodetector assembly detects backscattered interfered light; and
an information handling system, which activates one port on the first optical switch and one port on the second optical switch so as to delay the optical path length of the second portion of the optical pulse, thereby changing the spatial resolution of the system.
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Abstract
Systems and methods for distributed acoustic sensing based on coherent Rayleigh scattering are disclosed herein. A system comprises a pulse generator, an interferometer, a photo detector assembly, and an information handling system. The interferometer comprises a first and second optical switch each comprising a plurality of ports. The information handling system activates one port on each of the first and second optical switches so as to vary the optical path length of the interferometer. A method comprises splitting backscattered light from an optical pulse into a first portion and a second portion, activating one port of a first optical switch and one port of a second optical switch, sending the first portion into a first arm of an interferometer, sending the second portion into a second arm of the interferometer, combining the first and second portions to form an interferometric signal, and receiving the interferometric signal at a photodetector assembly.
15 Citations
17 Claims
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1. A distributed acoustic sensing system based on coherent Rayleigh scattering, comprising:
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a pulse generator, which generates an optical pulse; an interferometer, further comprising; a first arm, wherein a first portion of the optical pulse travels through the first arm; a second arm, wherein a second portion of the optical pulse travels through the second arm; a first optical switch coupled to the second arm and to a first plurality of fiber coils; and a second optical switch coupled to the first plurality of fiber coils; wherein the first optical switch and the second optical switch each comprise a plurality of ports; a photodetector assembly coupled to the interferometer, wherein the photodetector assembly detects backscattered interfered light; and an information handling system, which activates one port on the first optical switch and one port on the second optical switch so as to delay the optical path length of the second portion of the optical pulse, thereby changing the spatial resolution of the system. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
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14. A method for distributed acoustic sensing comprising:
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sending a first optical pulse down an optical fiber, wherein light from the first optical pulse is backscattered from positions along the length of the optical fiber according to coherent Rayleigh scattering; splitting backscattered light from the first optical pulse into a first portion and a second portion; activating a first port of a first optical switch, a first port of a second optical switch, a first port of a third optical switch, and a first port of a fourth optical switch; sending the first portion into a first arm of an interferometer, wherein the first arm of the interferometer is coupled to a first port of the first optical switch; sending the second portion into a second arm of the interferometer, wherein the second arm of the interferometer is coupled to a first port of the third optical switch; combining the first and second portions to form an interferometric signal; receiving the interferometric signal at a photodetector assembly; providing output relating to the interferometric signal to an information handling system. - View Dependent Claims (15)
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16. A method for distributed acoustic sensing comprising:
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generating a first optical pulse; splitting the first optical pulse into a first portion and a second portion; activating a first port of a first optical switch, a first port of a second optical switch, a first port of a third optical switch, and a first port of a fourth optical switch; sending the first portion into a first arm of an interferometer, wherein the first arm of the interferometer is coupled to the first port of the first optical switch; sending the second portion into a second arm of the interferometer, wherein the second arm of the interferometer is coupled to the first port of the third optical switch; combining the first portion from the first arm and the second portion from the second arm; sending the first and second portions down an optical fiber, wherein light from the first and second portions is backscattered from positions along the length of the optical fiber according to coherent Rayleigh scattering to form an interferometric signal; receiving the interferometric signal at a photodetector assembly; providing output relating to the interferometric signal to an information handling system. - View Dependent Claims (17)
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Specification
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Current AssigneeHalliburton Energy Services Incorporated (Halliburton Company)
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Original AssigneeHalliburton Energy Services Incorporated (Halliburton Company)
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InventorsJaaskelainen, Mikko, Suh, Kwang Il, Bush, Ira Jeffrey
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Primary Examiner(s)Lyons, Michael A
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Application NumberUS15/797,024Publication NumberTime in Patent Office610 DaysField of SearchUS Class CurrentCPC Class CodesE21B 47/107 using acoustic meansE21B 47/135 using light waves, e.g. inf...E21B 47/14 using acoustic wavesG01D 5/35303 using a reference fibre, e....G01D 5/35325 using interferometer with t...G01D 5/35329 using interferometer with t...G01D 5/35358 using backscattering to det...G01D 5/35361 using elastic backscatterin...G01H 9/004 using fibre optic sensors l...G01N 2201/0886 and using OTDRG01N 29/2418 using optoacoustic interact...G01V 1/226 Optoseismic systemsG01V 1/42 using generators in one wel...G01V 1/48 Processing dataG01V 8/10 Detecting, e.g. by using li...
