Display of common depth point seismic data with velocity correction in real time
First Claim
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1. Apparatus for processing stored seismic data in accordance with the commands of an operator, and updating a display of said processed data essentially in real time, comprising:
- means for storing raw data received from seismic exploration operations;
a mainframe computer, comprising means for accepting operator commands and means for receiving data from said means for storing raw data and transmitting said raw data together with said operator commands to an array processor means;
an array processor means, for receiving said commands and said raw data from said mainframe computer means, and for processing said data in accordance with said operator commands; and
video display means for receiving said data directly from said array processor and for displaying the same, wherein said data is reprocessed by said array processor and redisplayed on said display means substantially instantaneously in response to the commands provided by said operator, whereby the operator is permitted to observe the results of the input commands essentially in real time.
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Abstract
An improved method and apparatus for processing seismic data records is disclosed. Data is normal moveout corrected by an operator providing estimates of velocity of seismic energy in rock layers in the earth. According to the invention, the system provides an immediate display of the seismic data processed in response to operator commands relating to estimated velocity, whereby the operator is permitted to perform normal moveout correction by inputting new velocity commands, essentially in real time.
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Citations
9 Claims
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1. Apparatus for processing stored seismic data in accordance with the commands of an operator, and updating a display of said processed data essentially in real time, comprising:
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means for storing raw data received from seismic exploration operations; a mainframe computer, comprising means for accepting operator commands and means for receiving data from said means for storing raw data and transmitting said raw data together with said operator commands to an array processor means; an array processor means, for receiving said commands and said raw data from said mainframe computer means, and for processing said data in accordance with said operator commands; and video display means for receiving said data directly from said array processor and for displaying the same, wherein said data is reprocessed by said array processor and redisplayed on said display means substantially instantaneously in response to the commands provided by said operator, whereby the operator is permitted to observe the results of the input commands essentially in real time. - View Dependent Claims (2, 3)
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4. A method for processing common depth point seismic data and for displaying the same responsive to operator commands, said displaying being performed substantially in real time responsive to receipt of said commands, comprising the steps of:
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storing raw data received from a seismic exploration operation in storage means; providing a mainframe computer means to receive operator commands according to which said data is to be processed, and for forwarding said commands together with said data to an array processor means; employing said array processor means to process the data in accordance with said received operator commands, and to provide the processed data directly to a video display unit for display; displaying the processed data on said display unit; accepting further operator commands in response to review by the operator of the display of the processed data responsive to earlier commands; and reperforming said employing, displaying, and accepting steps essentially instantaneously until the operator is satisfied with the display of the resulting processed data. - View Dependent Claims (5, 6, 7)
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8. A method of generating a depiction of the subterranean structure of the earth, comprising the steps of:
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performing seismic exploration operations at a location on the surface of the earth, in which seismic energy is transmitted downwardly into the earth at a first shotpoint location, and is reflected upwardly at interfaces between rock layers in the earth, and detecting and recording the reflected energy employing transducers located at a number of recording locations on the surface of the earth spaced from the shotpoint; accepting operator commands indicative of initial assumptions concerning the velocity of seismic energy in the subterranean structure, and the shape and thickness of the various layers of rock in the subterranean structure; performing normal movement correction on each of the signals recorded by each of the transducers at the recording locations, thereby making correction for travel time variations between the shotpoint and recording locations close to the shotpoint and locations further from the shotpoint; displaying the corrected signals as traces corresponding to the signals recorded by each of the transducers, wherein the traces are ordered according to the relative positions of the corresponding transducers with respect to the shotpoint, and the display is of the amplitude of the corrected signals versus time of receipt of the signal; accepting further operator commands regarding updated assumptions with respect to the velocity of seismic energy and the shape and thickness of the layers of rock in the subterranean structure; and repeating said performing and displaying steps essentially instantaneously in response to accepted further operator commands; wherein said performing, displaying and accepting steps are performed on a computer system comprising; a display device for displaying the corrected traces; an array processor for performing said normal movement correction step, connected to said display device for supplying the corrected signals directly thereto for display; and a mainframe computer, comprising means for accepting said operator commands and for supplying the to said array processor means; wherein the mainframe computer does not in any way control the display of the corrected traces on the display deice after performance of the normal movement correction step by the array processor, so that said display of said corrected traces is updated responsive to new operator commands substantially in real time. - View Dependent Claims (9)
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Specification