RU2002128009A

RU2002128009A - SOURCE SIGNALS FOR ELECTROSEMISMIC EXPLORATION

Info

Publication number: RU2002128009A
Application number: RU2002128009/28A
Authority: RU
Inventors: Скотт К. Хорнбостел; Артур Х. Томпсон
Original assignee: Эксонмобил Апстрим Рисерч Компани
Priority date: 2000-03-21
Filing date: 2001-03-16
Publication date: 2004-04-20

Claims

1. A method for electroseismic exploration of an underground formation, comprising the following steps: selecting a source signal and a corresponding reference signal, wherein these two signals are selected to reduce the amplitude of the side lobes generated by correlation of the specified source signal with the specified reference signal; generating said source signal in the form of an electrical signal and transmitting said electrical signal to said underground formation; detection and recording of seismic signals resulting from the conversion of the specified electrical signal into seismic energy in the specified underground formation; and correlation of said recorded seismic signals with said reference signal.

2. The method according to claim 1, wherein said source signal is formed of one element, wherein said element consists of one full period of a preselected periodic oscillation, said elements are connected to each other with polarities sequentially specified by a preselected binary code, said periodic the oscillation has a frequency predefined, with the provision of penetration to the required depth of the specified underground formation.

3. The method according to claim 2, wherein said signal element is one period of a 60 Hz sine wave.

4. The method according to claim 2, in which the specified signal element is formed from the selected phases of a three-phase energy source, providing the required frequency below 60 Hz.

5. The method according to claim 2, wherein said binary code is pseudo-random, wherein said source signal has a predetermined duration, said duration is sufficient to further reduce said side lobes of the correlation function to a predetermined level, said reference signal is a source signal and said correlation is a circular correlation.

6. The method according to claim 5, in which the specified binary code is a sequence of a shift register of maximum length.

7. The method according to claim 2, wherein said binary code is a maximum length shift register sequence, wherein said resulting source signal is changed so that negative polarity elements in said source signal are set to zero, said reference signal is said the source signal before these elements of the signal with negative polarity are equal to zero, and the specified correlation is a circular correlation.

8. A method for electroseismic exploration of an underground formation, comprising the following steps: generating a first source signal and a second source signal from one element, wherein said element consists of one full period of a predetermined periodic oscillation, said periodic oscillation has a frequency predetermined with the possibility of penetration to the required depth of the specified underground formation, these elements are connected to each other with polarities, followed by tionary definable one element of Golay complementary pair of binary sequences in the case of said first source signal, and the second member of said Golay complementary pair in the case of said second signal source; the formation of each of these two source signals in the form of an electrical signal and, in turn, the transmission of each specified electrical signal to the underground formation / detection and recording of seismic signals resulting from the conversion of the indicated electrical signal into seismic energy in the specified underground formation; correlation of said recorded seismic signals from each of said source signals with said signal of the corresponding source itself; and summing the pairs of correlation functions of said recorded seismic signals and their corresponding source signals.

9. The method of claim 8, wherein said signal element is one period of a 60 Hz sine wave.

10. The method of claim 8, wherein said complementary Golei pair of binary sequences is selected from other Golei pairs using the criterion of the smallest amplitudes of the side lobes of the autocorrelation function before summing.

11. An electrical signal for use in electroseismic exploration of an underground formation, wherein said signal has a shape formed from one element, said element consists of one full period of a preselected periodic oscillation, said elements are connected to each other with polarities sequentially set by a preselected binary code, the specified periodic oscillation has a frequency predefined, with the possibility of ensuring penetration at the desired Loubinoux subterranean formation, said binary code is selected so that when the correlation signal is formed by a sidelobe amplitude below a predetermined level.

12. The signal of claim 11, wherein said signal element is one period of a 60 Hz sine wave.

13. The signal of claim 11, wherein said signal element is formed from selected phases of a three-phase energy source to have a desired frequency below 60 Hz.

14. The signal according to claim 11, in which the specified binary code is pseudo-random, and the specified correlation is a circular correlation.

15. The signal of claim 14, wherein said signal has a predetermined duration, wherein said duration is sufficient to further reduce said side lobe amplitudes to a predetermined level.

16. The signal of claim 14, wherein said binary code is a maximum length shift register sequence.

17. An electrical signal for use in electro-seismic exploration of an underground formation, wherein said signal has a shape formed from one element, said element consists of one full period of a preselected periodic oscillation, said periodic oscillation has a frequency predefined, with the possibility of penetration the required depth of the indicated underground formation, these elements are connected to each other with polarities sequentially set after edovatelnostyu shift register of maximum length, said the resulting waveform is modified so that the resulting negative polarity elements are equal to zero.

18. A pair of complementary electrical signals for use in combination with each other during electroseismic exploration of an underground formation, wherein said signals are shaped from one element, said element consists of one full period of a preselected periodic oscillation, said periodic oscillation has a frequency previously specific, with the ability to ensure penetration to the required depth of the specified underground formation, these elements are connected to each other with p the polarities sequentially specified by one element from the complement pair of the Golay binary sequences, in the case of one of the two electrical signals, and the second element from the specified complement Golay pair in the case of another electrical signal.

19. The pair of complementary electrical signals of claim 18, wherein said signal element is a single 60 Hz sine wave period.

20. A pair of complementary electrical signals according to claim 18, wherein said signal element is formed from selected phases of a three-phase energy source to have a desired frequency below 60 Hz.