摘要：Prestack acoustic full-waveform inversion (FWI) can provide long-wavelength components of the P-wave velocity by using low frequencies and long-offset direct/diving/refracted waves, which could be simulated via a large space grid, and it is weakly sensitive to density. Poststack impedance inversion can usually quickly yield high-resolution impedance, and it is sensitive to density. Therefore, we have combined these two methods to develop an FWI-driven impedance inversion. Our method first uses FWI to obtain the long-wavelength velocity with a guaranteed overlap between the high frequencies of the velocity and the low frequencies of the poststack data. Then, the fitting rock-physics relationship between the density and the velocity is adopted to translate the FWI velocity into the low-frequency impedance. Finally, the resulting low-frequency impedance is used to construct an a priori constraint for poststack impedance inversion. The method has the ability to solve the overlap between the FWI-based converted prior impedance model and poststack data, and it can thereby yield a broadband absolute impedance result. We adopt a Marmousi II model example and a real data case to test the performances of the FWI-driven impedance inversion and indicate its advantages compared with the conventional well-driven impedance inversion that uses well logs and interpreted horizons to build the prior impedance model. The synthetic data example demonstrates that well-driven impedance inversion produces a result with a relatively large deviation to the true impedance model at complex structure zones. However, FWI-driven impedance inversion favorably recovers all interesting sediment layers at complex structure zones. The real data example illustrates that well-driven impedance inversion yields a result with a distinct footprint of the prior model created from well logs and horizons. On the other hand, we find that FWI-driven impedance inversion yields a geologically reasonable solution, which not only conforms to the time-space variation trend of the well logs, but it also reveals a basin structural-depositional evolution.

关键字：SEISMIC-REFLECTION DATA ACOUSTIC-IMPEDANCE VELOCITY MIGRATION RECOVERY LAYER INTERPOLATION TOMOGRAPHY DOMAIN

ISSN号：0016-8033

卷、期、页：卷: 84 期: 2 页: R149-R164

发表日期：2019-03-01

影响因子：2.391000

期刊分区（SCI为中科院分区）：三区

收录情况：SCI（科学引文索引印刷版）,ESI（基本科学指标数据库）,EI（工程索引）,SCIE（科学引文索引网络版）

发表期刊名称：Geophysics

通讯作者：罗亚能,韦婉婉,王官超

第一作者：袁三一,王尚旭

论文类型：期刊论文

论文概要：袁三一,王尚旭,罗亚能,韦婉婉,王官超，Impedance inversion by using the low-frequency full-waveform inversion result as an a priori model，Geophysics，2019，卷: 84 期: 2 页: R149-R164

论文题目：Impedance inversion by using the low-frequency full-waveform inversion result as an a priori model