Passive reflective imaging for visualizing subsurface structures in earth and water
First Claim
1. A method for use in connection with seismic exploration, comprising:
- using an array of seismic receivers, obtaining a plurality of seismic signals associated with seismic information;
selecting a subterranean point of interest;
using a processing system, adjusting each of said signals to focus on data associated with said point of interest to produces a plurality of adjusted seismic signals, wherein said adjusting each of said signals comprises time delaying at least a portion of said signals such that ray paths between corresponding ones of said seismic receivers and said point of interest are substantially equal, and wherein said time delaying comprises calculating distances between said receivers along their respective ray paths and a position on a hypothetical spherical surface, wherein said point of interest is a center of said spherical surface and wherein said time delay for each said signal is based on said distances; and
using said processing system, summing said adjusted seismic signals, wherein a sum of said adjusted seismic signals is indicative of a reflection value for said subterranean point of interest.
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Abstract
A system and method is provided that uses signals from a plurality of seismic sensors to define an acoustic lens for subsurface imaging. More specifically signals provided by an array of sensors/geophones may be utilized to form an acoustic lens that can be focused on a subterranean point by properly adjusting the signals recorded at each sensor prior to summation of those signals. To form such an acoustic lens, each of the seismic sensors is moved onto a hypothetical acoustic lens surface (e.g., spherical surface) having a focal point located on the subterranean point of interest in order to calculate a time delay for each signal. Once the signals for each sensor is time-delayed, information in the time-delayed signals, which is received from the point of interest, may be temporally aligned. Accordingly, the time delayed signals may be combined to generate reflection information for the point of interest.
20 Citations
29 Claims
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1. A method for use in connection with seismic exploration, comprising:
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using an array of seismic receivers, obtaining a plurality of seismic signals associated with seismic information; selecting a subterranean point of interest; using a processing system, adjusting each of said signals to focus on data associated with said point of interest to produces a plurality of adjusted seismic signals, wherein said adjusting each of said signals comprises time delaying at least a portion of said signals such that ray paths between corresponding ones of said seismic receivers and said point of interest are substantially equal, and wherein said time delaying comprises calculating distances between said receivers along their respective ray paths and a position on a hypothetical spherical surface, wherein said point of interest is a center of said spherical surface and wherein said time delay for each said signal is based on said distances; and using said processing system, summing said adjusted seismic signals, wherein a sum of said adjusted seismic signals is indicative of a reflection value for said subterranean point of interest. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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13. A method for use in connection with seismic exploration, comprising:
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using an array of seismic receivers, obtaining a plurality of seismic signals associated with passive seismic vibrations; selecting a subterranean point of interest; and using a processing system; time delaying each said signal such that ray paths between said seismic receivers generating said signals and said point of interest are substantially equal, wherein said time delaying comprises calculating distances between said receivers along their respective ray paths and a position on a hypothetical spherical surface, wherein said point of interest is a center of said spherical surface, and wherein said time delay for each said signal is based on said distances; and identifying a reflection value for said point of interest utilizing said seismic signals from said seismic receivers. - View Dependent Claims (14, 15, 16, 17, 18, 19, 20, 21, 22, 23)
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24. A method for use in connection with seismic exploration, comprising:
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obtaining a plurality of seismic signals using an array of seismic receivers; selecting a subterranean point of interest; using a processing system that is operative to receive information originating from each said receiver; determining a first distance of a ray between said receiver and said point of interest; determining a second distance along said ray between said receiver and a spherical surface, wherein said point of interest is at a center of said spherical surface; time delaying the seismic signal of said receiver based on said first and second distances to produce a time delayed signals; and identifying a reflection value for said point of interest using a plurality of said time delayed signals. - View Dependent Claims (25, 26, 27, 28)
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29. A system for use in connection with seismic
exploration, comprising: -
a plurality of seismic receivers for recording seismic information and generating seismic signals, wherein said receivers are disposed in an array; and a processor operative to obtain said seismic signals originating from said seismic receivers, said processor further operative to; determine a first distance of a ray between a physical location of each said receiver and a subterranean point of interest; determine a second distance along said ray between each said receiver and a spherical surface, wherein said point of interest is at a center of said spherical surface; time delay the seismic signal of each said receiver based on said first and second distances to produce time delayed signals; and identifying a reflection value for said point of interest using a plurality of said time delayed signals.
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Specification