US2013100764A1PendingUtilityA1
Acquisition scheme for vibroseis marine sources
Est. expiryOct 19, 2031(~5.3 yrs left)· nominal 20-yr term from priority
Inventors:Laurent Ruet
G01V 1/3808G01V 1/38G01V 1/3861G01V 1/005G01V 1/04Y02A90/30
46
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Claims
Abstract
Control mechanisms, computer software and methods for driving vibrational source arrays underwater. An incoherent acquisition scheme drives individual source elements simultaneously and incoherently while a coherent acquisition scheme drives high-frequency individual source elements simultaneously and incoherently and low-frequency individual source elements simultaneously and coherently. Thus, denser coverage and an increased energy input is achieved for the source arrays.
Claims
exact text as granted — not AI-modifiedWhat is claimed is:
1 . An incoherent acquisition method for driving vibrational source arrays under water, the method comprising:
towing with a vessel a first source array and a second source array underwater, wherein the first source array includes plural first individual source elements and the second source array includes plural first individual source elements; and activating simultaneously the first source array and the second source array so that incoherent coded driving signals drive the first and second source arrays.
2 . The method of claim 1 , wherein the incoherent coded driving signals of the first and second source arrays include multiple frequencies.
3 . The method of claim 1 , wherein the plural first individual source elements and the plural first individual source elements are configured to emit a frequency lower than about 32 Hz.
4 . The method of claim 3 , wherein the first source array and the second source array include plural second individual source elements that are configured to emit a frequency higher than about 32 Hz.
5 . The method of claim 4 , further comprising: towing the plural first individual source elements at a depth larger than a depth of the plural second individual source elements.
6 . The method of claim 1 , wherein the plural individual source elements are electro-mechanical sources.
7 . The method of claim 6 , further comprising:
activating an electro-magnetic actuator system to generate a first seismic wave; and activating a pneumatic mechanism to generate a second seismic wave, wherein the electro-magnetic actuator system and the pneumatic mechanism are part of an individual source element.
8 . A control mechanism configured to implement an incoherent acquisition method for driving vibrational source arrays under water, the control mechanism comprising:
a processor configured to activate simultaneously a first source array and a second source array so that incoherent coded driving signals drive the first and second source arrays, wherein the first source array includes plural first individual source elements and the second source array includes plural first individual source elements.
9 . The control mechanism of claim 8 , wherein the incoherent coded driving signals of the first and second source arrays include multiple frequencies.
10 . The control mechanism of claim 8 , wherein the plural first individual source elements and the plural first individual source elements are configured to emit a frequency lower than about 32 Hz and the first source array and the second source array include plural second individual source elements that are configured to emit a frequency higher than about 32 Hz.
11 . A computer readable medium including computer executable instructions, wherein the instructions, when executed, implement a method for incoherently driving vibrational source arrays under water, the method comprising:
towing with a vessel a first source array and a second source array underwater, wherein the first source array includes plural first individual source elements and the second source array includes plural first individual source elements; and activating simultaneously the first source array and the second source array so that incoherent coded driving signals drive the first and second source arrays.
12 . A coherent acquisition method for driving vibrational source arrays under water, the method comprising:
towing with a vessel high-frequency first and second source arrays and a low-frequency source array underwater, wherein the high-frequency first and second source arrays include plural high-frequency individual source elements and the low-frequency source array includes plural low-frequency individual source elements; activating simultaneously the high-frequency first source array and the high-frequency second source array so that incoherent coded driving signals drive the high-frequency first and second source arrays; and activating simultaneously the plural low-frequency individual source elements of the low-frequency source array so that coherent coded driving signals drive the low-frequency individual source elements.
13 . The method of claim 12 , wherein the incoherent coded driving signals of the high-frequency first and second source arrays determine that a signal emitted by the high-frequency first source array is not correlated to a signal emitted by the high-frequency second source array while signals emitted by the low-frequency source array are correlated.
14 . The method of claim 12 , wherein the plural high-frequency individual source elements are configured to emit a frequency higher than about 32 Hz.
15 . The method of claim 14 , wherein the low-frequency individual source elements are configured to emit a frequency lower than about 32 Hz.
16 . The method of claim 12 , wherein the high-frequency and low-frequency plural individual source elements are electro-mechanical sources.
17 . The method of claim 16 , further comprising:
activating an electro-magnetic actuator system of a low-frequency individual source element to generate a first seismic wave; and activating a pneumatic mechanism of a low-frequency individual source element to generate a second seismic wave.
18 . A control mechanism configured to implement a coherent acquisition method for driving vibrational source arrays under water, the control mechanism comprising:
a processor configured to, activate simultaneously a high-frequency first source array and a high-frequency second source array so that incoherent coded driving signals drive the high-frequency first and second source arrays; and activate simultaneously plural low-frequency individual source elements of a low-frequency source array so that coherent coded driving signals drive the low-frequency individual source elements, wherein the first and second source arrays include plural high-frequency individual source elements.
19 . The control mechanism of claim 18 , wherein the incoherent coded driving signals of the high-frequency first and second source arrays determine that a signal emitted by the high-frequency first source array is not correlated to a signal emitted by the high-frequency second source array while signals emitted by the low-frequency source array are correlated.
20 . A computer readable medium including computer executable instructions, wherein the instructions, when executed, implement a method for coherently driving vibrational source arrays under water, the method comprising:
towing with a vessel high-frequency first and second source arrays and a low-frequency source array underwater, wherein the high-frequency first and second source arrays include plural high-frequency individual source elements and the low-frequency source array includes plural low-frequency individual source elements; activating simultaneously the high-frequency first source array and the high-frequency second source array so that incoherent coded driving signals drive the high-frequency first and second source arrays; and activating simultaneously the plural low-frequency individual source elements of the low-frequency source array so that coherent coded driving signals drive the low-frequency individual source elements.Join the waitlist — get patent alerts
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