摘要The received wave field including primaries and all of the multiples can be associated with the reflection coefficients which are only primaries by a prediction operator and two equations: the energy flux conservation equation and the prediction operator equation that is developed from the Levinson recursion and can be easily solved by Li group method under a two-dimensional condition. Given reflection coefficients, the prediction operator can be obtained by solving the prediction operator equation. By the energy flux conservation equation, the reciprocal of the prediction operator times the conjugate of it, the wave field can be predicted, in which both of the surface multiples and the internal multiples are involved. On the other hand, if the wave field is given, based on the energy flux conservation equation solved by the 2D spectral factorization, a fully automated data-driven algorithm is developed to remove the surface multiples as well as the internal multiples.
Abstract:The received wave field including primaries and all of the multiples can be associated with the reflection coefficients which are only primaries by a prediction operator and two equations: the energy flux conservation equation and the prediction operator equation that is developed from the Levinson recursion and can be easily solved by Li group method under a two-dimensional condition. Given reflection coefficients, the prediction operator can be obtained by solving the prediction operator equation. By the energy flux conservation equation, the reciprocal of the prediction operator times the conjugate of it, the wave field can be predicted, in which both of the surface multiples and the internal multiples are involved. On the other hand, if the wave field is given, based on the energy flux conservation equation solved by the 2D spectral factorization, a fully automated data-driven algorithm is developed to remove the surface multiples as well as the internal multiples.
He Li;LIU Hong;DING Ren-Wei;LI Bo. Prediction and Elimination of Multiples Based on Energy Flux Conservation Theorem and Prediction Operator Equation[J]. 中国物理快报, 2010, 27(5): 59101-059101.
He Li, LIU Hong, DING Ren-Wei, LI Bo. Prediction and Elimination of Multiples Based on Energy Flux Conservation Theorem and Prediction Operator Equation. Chin. Phys. Lett., 2010, 27(5): 59101-059101.
[1] Berkhout A J and Verschuur D J 1997 Geophysics 62 1586 [2] Verschuur D J and Berkhout A J 1997 Geophysics 62 1596 [3] Wang Y H 2004 Geophysics 69 547 [4] Wang Y H 2007 Geophysics 72 V33 [5] Berkhout A J and Verschuur D J 2005 Geophysics 70 V45 [6] Verschuur D J and Berkhout A J 2005 Geophysics 70 V61 [7] Berkhout A J 2006 Geophysics 71 A29 [8] Berkhout A J and Verschuur D J 2007 EAGE 69th Conference {\rm\& Exhibition} (London, UK 11--14 June 2007) [9] Luo Y, Zhu W H, Kelamis P G and Saudi A 2007 SEG Annual Meeting (San Antonio, USA 23--26 September 2007) [10] Claerbout J F 1985 Fundamentals of Geophysical Data Processing (England: Blackwell Scientific Publications) pp 1--266 [11] Liu H, Yuan J H and Gou Y F 2007 Chin. J. Geophys. 50 231 (in Chinese) [12] Iserles A, Munthe-Kaas H Z, N {\o}rsett S P and Zanna A 2000 Lie-Group Methods (Cambridge: Cambridge University) pp 215--365 [13] Liu H, Liu G F, Wu W, Yuan J H and Li Y M 2007 Geophysical Prospecting for Petroleum 46 569 (in Chinese) [14] Liu H, He L, Liu G F and Li B 2008 Progress in Chinese Geology and Geophysics Celebration of 80th Anniversary of Academician Liu Guangding (Beijing: Beijing Sciences Press) p 412 (in Chinese) [15] Liu H 2008 Progress in Exploration Geophysics-Celebration of 70th Anniversary of Professor He Zhenhua (Beijing: Petroleum Industrial Press) p 13 (in Chinese) [16] Liu G F, Li B, Liu H and Zhang Y P 2008 Progress in Chinese Geology and Geophysics-Celebration of 80th Anniversary of Academician Liu Guangding (Beijing: Beijing Sciences Press) p 407 (in Chinese) [17] Rickett J E 2001 PhD Dissertation (Stanford: Stanford University)
2010, Vol. 27 
