期刊
IEEE GEOSCIENCE AND REMOTE SENSING LETTERS
卷 18, 期 1, 页码 97-101出版社
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/LGRS.2020.2968862
关键词
Electromagnetic (EM); migration; synthetic aperture (SA)
类别
资金
- University of Utah Consortium for Electromagnetic Modeling and Inversion
- Russian Science Foundation (RSF) [16-11-10188]
- TechnoImaging, LLC
- Russian Science Foundation [16-11-10188] Funding Source: Russian Science Foundation
Towed streamer electromagnetic (TSEM) survey is an efficient technique for collecting large volumes of EM data rapidly and economically to detect marine HC reservoirs. However, interpreting TSEM data remains a challenging problem. The proposed method of migrating optimal synthetic aperture (OSA) data addresses this issue by iteratively solving the migration problem within the RRCG framework, tested on synthetic models and applied to real TSEM data revealing resistive layers.
Towed streamer electromagnetic (TSEM) survey is an efficient data acquisition technique capable of collecting a large volume of electromagnetic (EM) data over extensive areas rapidly and economically. The TSEM survey is capable of detecting and characterizing marine hydrocarbon (HC) reservoirs. However, interpretation of the TSEM data is still a very challenging problem. We propose solving this problem by migrating the optimal synthetic aperture (OSA) data for the TSEM survey. We first represent the OSA data as a solution of Lippmann-Schwinger equation and then demonstrate that the migration of OSA data is just the inner product of the backward-propagated and forward-propagated EM fields. The migration problem is solved iteratively within the general framework of the reweighted, regularized, conjugate gradient (RRCG) method. The proposed method was tested with two synthetic models. We also applied this method to the TSEM data set collected in the Barents Sea and revealed a resistive layer at a depth of about 500 m.
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