A PROPOSAL FOR REGULARIZED INVERSION FOR AN ILL-CONDITIONED DECONVOLUTION OPERATOR

Herling Gonzalez, S. Avendaño, Germán Camacho
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引用次数: 2

Abstract

From the inverse problem theory aspect, deconvolution can be understood as the linear inversion of an ill-posed and ill-conditioned problem. The ill-conditioned property of the deconvolution operator make the solution of inverse problem sensitive to errors in the data. Tikhonov regularization is the most commonly used method for stability and uniqueness of the solution. However, results from Tikhonov method do not provide sufficient quality when the noise in the data is strong. This work uses the conjugate gradient method applied to the Tikhonov deconvolution scheme, including a regularization parameter calculated iteratively and based on the improvement criterion of Morozov discrepancy applied on the objective function. Using seismic synthetic data and real stacked seismic data, we carried out a deconvolution process with regularization and without regularization based on a conjugated gradient algorithm. A comparison of results is also presented. Applying regularized deconvolution on synthetic data shows improved stability on the solution. Additionally, real post-stack seismic data shows a direct application for increasing the vertical resolution even with noisy data.
病态反卷积算子的正则反演方法
从反问题理论的角度来看,反卷积可以理解为不适定和不适条件问题的线性反演。反卷积算子的病态性质使得反演问题的解对数据误差敏感。Tikhonov正则化是最常用的解决方案的稳定性和唯一性的方法。然而,当数据中的噪声较强时,Tikhonov方法的结果不能提供足够的质量。本文将共轭梯度法应用于Tikhonov反卷积方案,其中包括一个迭代计算的正则化参数,并基于目标函数上的Morozov差异改进准则。利用地震合成数据和实际叠加地震数据,基于共轭梯度算法分别进行正则化和非正则化反卷积处理。并对结果进行了比较。在合成数据上应用正则化反褶积,提高了解的稳定性。此外,实际的叠后地震数据显示,即使在有噪声的情况下,也可以直接提高垂向分辨率。
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