Areal monitoring using distributed acoustic sensing
First Claim
1. A method for obtaining information about a subsurface formation from acoustic signals that contain information about the subsurface formation, using at least one fiber optic cable deployed within acoustic range of the subsurface formation, said fiber optic cable having a proximal end and a remote end, said proximal end being coupled to a light source and to a proximal photodetector, said fiber optic cable being acoustically coupled to the subsurface formation so as to allow the acoustic signals to affect the physical status of the cable, the method comprising:
- a) transmitting into the cable at least one light pulse;
b) receiving at the photodetector a first light signal indicative of the physical status of at least one first section of the cable, wherein said first section is selected so the first light signal provides a first item of information about the subsurface formation;
c) receiving at the photodetector a second light signal indicative of the physical status of at least one second section of the cable, wherein said second section is selected so that the second light signal provides a second item of information about the subsurface formation;
ande) outputting at least one of the first item of information and the second item of information to a display;
wherein the second item of information differs from the first item of information in resolution.
2 Assignments
0 Petitions
Accused Products
Abstract
A method for obtaining seismic information about a subsurface formation using at least one fiber optic cable having its proximal end coupled to a light source and a photodetector comprises: transmitting into the cable at least one light pulse; receiving at the photodetector a first and second light signals indicative of the physical status of at least one first cable section and at least one second cable section, respectively, wherein the first and second sections are selected so as to provide first and second information items, respectively; optionally, further processing at least one of the first and second information items so as to produce derivative information; and outputting at least one of the first, second, and derivative information items to a display; wherein the second item differs from the first item in at least one aspect selected from the group consisting of: resolution, area, and location.
39 Citations
35 Claims
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1. A method for obtaining information about a subsurface formation from acoustic signals that contain information about the subsurface formation, using at least one fiber optic cable deployed within acoustic range of the subsurface formation, said fiber optic cable having a proximal end and a remote end, said proximal end being coupled to a light source and to a proximal photodetector, said fiber optic cable being acoustically coupled to the subsurface formation so as to allow the acoustic signals to affect the physical status of the cable, the method comprising:
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a) transmitting into the cable at least one light pulse; b) receiving at the photodetector a first light signal indicative of the physical status of at least one first section of the cable, wherein said first section is selected so the first light signal provides a first item of information about the subsurface formation; c) receiving at the photodetector a second light signal indicative of the physical status of at least one second section of the cable, wherein said second section is selected so that the second light signal provides a second item of information about the subsurface formation; and e) outputting at least one of the first item of information and the second item of information to a display; wherein the second item of information differs from the first item of information in resolution. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A method for obtaining information about a subsurface formation from acoustic signals that contain information about the subsurface formation, using at least one fiber optic cable deployed within acoustic range of the subsurface formation, said fiber optic cable having a proximal end and a remote end, said proximal end being coupled to a light source and to a proximal photodetector, said fiber optic cable being acoustically coupled to the subsurface formation so as to allow the acoustic signals to affect the physical status of the cable, the method comprising:
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a) transmitting into the cable at least one light pulse; b) receiving at the photodetector a first light signal indicative of the physical status of at least one first section of the cable, wherein said first section is selected so the first light signal provides a first item of information about the subsurface formation; c) receiving at the photodetector a second light signal indicative of the physical status of at least one second section of the cable, wherein said second section is selected so that the second light signal provides a second item of information about the subsurface formation; d) further processing at least one of the first and second items of information so as to produce derivative information; and e) outputting at least one of the first item of information, the second item of information, and the derivative information to a display; wherein the second item of information differs from the first item of information in resolution. - View Dependent Claims (12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25)
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26. A method for obtaining information about a subsurface formation from acoustic signals that contain information about the subsurface formation, using at least one fiber optic cable deployed in a borehole within acoustic range of the subsurface formation, said fiber optic cable having a proximal end and a remote end, said proximal end being coupled to a light source and to a proximal photodetector, said fiber optic cable being acoustically coupled to the subsurface formation so as to allow the acoustic signals to affect the physical status of the cable, the method comprising:
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a) transmitting into the cable at least one light pulse; b) receiving at the photodetector a first light signal indicative of the physical status of at least one first section of the cable, wherein said first section is selected so the first light signal provides a first item of information about the subsurface formation; c) receiving at the photodetector a second light signal indicative of the physical status of at least one second section of the cable, wherein said second section is selected so that the second light signal provides a second item of information about the subsurface formation; d) further processing at least one of the first and second items of information so as to produce derivative information; and e) outputting at least one of the first item of information, the second item of information, and the derivative information to a display; wherein the second item of information differs from the first item of information in at least one aspect selected from the group consisting of;
resolution, area, and location, and wherein step d) includes processing the first and second items of information so as to yield virtual source data. - View Dependent Claims (27, 28, 29, 30, 31, 32, 33, 34, 35)
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Specification