Inverse Hessian estimation in least-squares migration using chains of operators

82nd EAGE Annual Conference & Exhibition Pub Date : 2021-10-18 DOI:10.3997/2214-4609.202112700
T. Tangkijwanichakul, Sergey Fomel
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Abstract

Summary We approximate the inverse Hessian operator by a chain of weights in time/space and frequency domains. Tests on synthetic data show that this approach provides an effective approximation while having the minimal cost of forward and inverse FFTs (Fast FourierTransforms). The method can be applied either for compensating migrated images or in the form of a preconditioner inside iterative least-squares reverse-time migration (LSRTM). As demonstrated by experiments with synthetic data, the latter significantly accelerates the convergence of LSRTM and achieves high-quality imaging results in fewer iterations.
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基于算子链的最小二乘迁移逆Hessian估计
我们在时间/空间和频域中用权链逼近逆Hessian算子。对合成数据的测试表明,该方法提供了有效的近似,同时具有最小的正向和反向fft(快速傅里叶变换)成本。该方法既可以用于补偿偏移图像,也可以在迭代最小二乘逆时偏移(LSRTM)中作为前置条件。合成数据实验表明,后者显著加快了LSRTM的收敛速度,在更少的迭代中获得了高质量的成像结果。
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82nd EAGE Annual Conference & Exhibition
82nd EAGE Annual Conference & Exhibition
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