Seismic exploration using vibratory sources, sign-bit recording, and processing that maximizes the obtained subsurface information

US 4,346,461 A
Filed: 02/01/1980
Issued: 08/24/1982
Est. Priority Date: 02/01/1980
Status: Expired due to Term

First Claim

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1. A method of seismic surveying using vibratory sources that recovers all the essential information of full-waveform recording even though said method uses only sign-bit recording of both the source signals and the detected signals, which comprises:

A. injecting seismic vibrations into the earth by driving at least one substantially linearly-responding vibratory source with a substantially Gaussian, zero mean, stationary code;

B. recording a sign-bit representation of said substantially Gaussian, zero mean, stationary code;

C. recording a sign-bit representation of the seismic vibrations that have propagated through the earth from said at least one vibratory source to at least one receiver; and

D. cross-correlating said sign-bit representation of said substantially Gaussian, zero mean, stationary code with said sign-bit representation of the received said seismic vibrations;

the result of said cross-correlating being the desired seismic survey record.

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Abstract

The disclosed invention is a method of seismic exploration using vibratory sources activated by stationary, Gaussian codes. The method has the channel-capacity economy of sign-bit recording, at both the sources and receivers, without the sacrifice of any desired seismic information in the final processed records. Even the relative amplitudes between traces may be recovered in the method.

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16 Claims

1. A method of seismic surveying using vibratory sources that recovers all the essential information of full-waveform recording even though said method uses only sign-bit recording of both the source signals and the detected signals, which comprises:
- A. injecting seismic vibrations into the earth by driving at least one substantially linearly-responding vibratory source with a substantially Gaussian, zero mean, stationary code;
  
  B. recording a sign-bit representation of said substantially Gaussian, zero mean, stationary code;
  
  C. recording a sign-bit representation of the seismic vibrations that have propagated through the earth from said at least one vibratory source to at least one receiver; and
  
  D. cross-correlating said sign-bit representation of said substantially Gaussian, zero mean, stationary code with said sign-bit representation of the received said seismic vibrations;
  
  the result of said cross-correlating being the desired seismic survey record.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
- - 2. The method of claim 1, in which the injecting of said seismic vibrations is continued throughout the time interval in which said propagated seismic vibrations are received.
  - 3. The method of claim 1, with an additional step:
    - transforming the amplitudes of the cross-correlation product resulting from Step D in accordance with the relationship;
      
      ##EQU2## where;
      
      k(W) is the sign-bit recorded function representing the injected vibrations,k(Y) is the sign-bit recorded function representing the received propagated vibrations,X[k(W),k(Y)] is the cross-correlation function of k(W) and k(Y), andX[W,Y] is the normalized cross-correlation function of the full amplitude version of the two functions W and Y.
  - 4. The method of claim 1, in which when Steps A to D are repeated, a different time sequence of substantially Gaussian, zero mean, stationary seismic vibrations is used for each time said steps are repeated.
  - 5. The method of claim 1, in which said substantially Gaussian, zero mean, stationary code is filtered, before said code is used to drive said vibratory source, through a filter selected from the class consisting of minimum-phase band-pass filters and zero-phase band-pass filters.
  - 6. The method of claim 1, in which said substantially Gaussian, zero mean, stationary code is filtered, before said code is used to drive said vibratory source and also before said code is recoded in sign-bit form, through a filter selected from the class consisting of minimum-phase band-pass filters and zero-phase band-pass filters.
  - 7. The method of claim 1, in which a multiplicity of seismic receivers is used, and a corresponding multiplicity of signal channels leads toward a recorder, with the following adjuncts to Step C:
    - i. dividing said multiplicity of signal channels into subsets, each subset consisting of at least two of said channels; and
      
      ii. by using at least one auxiliary channel for each subset, recording in sign-bit form the sum of the signals within each subset.
  - 8. The method of claim 1, in which a multiplicity of seismic receivers is used, and a corresponding multiplicity of signal channels leads toward a recorder, with the following adjuncts to Step C:
    - i. dividing said multiplicity of signal channels into subsets, each subset consisting of at least two of said channels;
      
      ii. by using at least one auxiliary channel for each subset, recording in sign-bit form the sum of the signals within each subset; and
      
      iii. by using at least one other auxiliary channel for each subset, recording in sign-bit form the compound sum comprising the sum of the signals within the subset itself and the sum of the signals from an adjacent subset.
  - 9. The method of claim 1, in which a multiplicity of seismic receivers is used, and a corresponding multiplicity of signal channels leads toward a recorder, with the following adjuncts to Step C:
    - i. dividing said multiplicity of signal channels into subsets, each subset consisting of at least two of said channels;
      
      ii. by using at least one auxiliary channel for each subset, recording in sign-bit form the sum of the signals within each subset; and
      
      iii. by using at least one other auxiliary channel for each subset, recording in sign-bit form the compound sum comprising the sum of the signals within the subset itself and the sum of the signals from another subset in such a manner that the sum of the traces in each subset contributes to at least two said compound sums.

10. A method of seismic surveying using vibratory sources, said method having the channel capacity economy of clipped recording of the injected and received seismic waves without sacrifice of essential seismic information in the seismic record which comprises:
- A. generating a pseudo-random code which is Gaussian, zero mean, and stationary;
  
  B. filtering said code through a filter selected from the class consisting of minimum-phase band-pass and zero-phase band-pass;
  
  C. driving at least one substantially linearly-responding seismic vibratory source with the resultant filtered code to inject seismic signals into the earth for a time interval longer than the recording interval of the resultant seismic waves;
  
  D. recording a clipped representation of the seismic signals detected by at least one receiver positioned to detect said resultant seismic waves;
  
  E. recording a clipped representation of said pseudo-random code without filtering thereof; and
  
  F. cross-correlating said clipped representation of said pseudo-random code with said clipped representation of said detected seismic signals;
  
  the result of said cross-correlating being the desired seismic record.
- View Dependent Claims (11, 12)
- - 11. The method of claim 10, in which Steps A to F are repeated, and a different time sequence of random seismic vibrations is used for each time said steps are repeated.
  - 12. The method of claim 10 in which a multiplicity of seismic receivers is used, and a corresponding multiplicity of signal channels leads toward a recorder, with the following adjunct to D:
    - i. dividing said multiplicity of signal channels into subsets, each subset consisting of at least two of said channels; and
      
      ii. by using at least one auxiliary channel for each subset, recording in clipped form the sum of the signals within each subset.

13. A method of seismic surveying using at least one vibratory source that recovers all essential information of full-waveform recording even though said method uses only clipped recording of both the source signals and the detected signals, which comprises:
- A. injecting seismic vibrations into the earth by driving at least one substantially linearly-responding vibratory source with a substantially Gaussian, zero mean, stationary code;
  
  B. recording a clipped representation of said substantially Gaussian, zero mean, stationary code;
  
  C. recording a clipped representation of the seismic vibrations that have propagated through the earth from said at least one vibratory source to at least one receiver; and
  
  D. cross-correlating said clipped representation of said substantially Gaussian, zero mean, stationary code with said clipped representation of the recording of said propagated seismic vibrations by said receiver;
  
  the result of said cross-correlating being the desired seismic survey record.

14. A method of seismic surveying using vibratory sources, said method having the channel capacity economy of sign-bit recording of both source signals and received signals without sacrifice of the essential seismic information that would have been obtained with full-waveform recording of both the source signals and the received signals, which comprises:
- A. injecting seismic vibrations into the earth by driving at least one substantially linearly-responding vibratory source with a substantially Gaussian, zero mean, stationary code;
  
  B. recording a sign-bit representation of said substantially Gaussian, zero mean, stationary code;
  
  C. recording a sign-bit representation of the seismic vibrations that have propagated through the eaerth from said at least one vibratory source to at least one receiver; and
  
  D. cross-correlating said sign-bit representation of said substantially Gaussian, zero mean, stationary code with said sign-bit representation of the received seismic vibrations;
  
  the result of said cross-correlating being the desired seismic survey record.

15. A method of seismic exploration having the channel-capacity economy of sign-bit recording of the received full-waveform sinusoidal seismic signals without sacrifice of essential seismic information in the seismic record which comprises:
- A. generating a substantially Gaussian, zero mean, stationary code;
  
  B. driving at least one substantially linearly-responding vibratory source with said substantially Gaussian, zero mean, stationary code to inject seismic vibrations into the earth;
  
  C. recording a sign-bit representation of the seismic vibrations propagated through the earth from said source and detected by at least one receiver;
  
  D. recording a sign-bit representation of said substantially Gaussian, zero mean, stationary code before, during or after said code is used to drive said vibratory source; and
  
  E. cross-correlating said sign-bit representation of said received seismic vibrations with said sign-bit representation of said substantially Gaussian, zero mean, stationary code;
  
  the result of said cross-correlating being the desired seismic exploration record.

16. A method of seismic surveying using vibratory sources that recovers all essential information of full-waveform recording even though said method records only sign-bit recording representations of both the source input signals and detected receiver signals, which comprises:
- A. injecting a substantially Gaussian, zero mean, stationary seismic signal into the earth by driving a substantially linearly-responding vibratory source against said earth;
  
  B. recording a sign-bit representation of said injected substantially Gaussian, zero mean, stationary signal;
  
  C. after said substantially Gaussian, zero mean, stationary signal has propagated through the earth from said at least one vibratory source to at least one receiver, recording a sign-bit representation of the detected receiver signal; and
  
  D. cross-correlating said sign-bit representation of said injected substantially Gaussian, zero mean, stationary signal with said sign-bit representation of the detected receiver signal, the result of said cross-correlating being the desired seismic survey record.

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Current Assignee
Chevron Research Company (Chevron Corp.)
Original Assignee
Chevron Research Company (Chevron Corp.)
Inventors
Muir, Francis
Primary Examiner(s)
Moskowitz, Nelson

Application Number

US06/117,689
Time in Patent Office

935 Days
Field of Search

367/39, 367/41, 367/55, 367/60, 367/100, 367/905, 343/100 CL, 364/421, 364/717, 364/728
US Class Current

367/39
CPC Class Codes

G01V 1/005 with exploration systems em...

G01V 1/247 Digital recording of seismi...

Seismic exploration using vibratory sources, sign-bit recording, and processing that maximizes the obtained subsurface information

First Claim

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Seismic exploration using vibratory sources, sign-bit recording, and processing that maximizes the obtained subsurface information

First Claim

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Accused Products

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Abstract

29 Citations

16 Claims

Specification

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Use Cases

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