German Camacho scite author profile

German Camacho

5Publications

1Citation Statement Received

20Citation Statements Given

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Ecopetrol (Colombia)

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A proposal for regularized inversion for an ill-conditioned deconvolution operator

Gonzalez

Avendaño²,

Camacho

2013

CT&F Cienc. Tecnol. Futuro

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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. ABSTRACT 48D esde o ponto de vista da teoria de problemas inversos, a deconvolução pode ser entendida como uma inversão linear de um problema mal posto e mal condicionado. A característica do mal condicionamento do operador de deconvolução faz que a solução do problema inverso seja sensitiva a erros nos dados. A regularização de Tikhonov é o método mais comum utilizado para estabilizar a solução e obter sua unicidade. Porém, os resultados do método de Tikhonov não fornecem qualidade suficiente quando o ruído nos dados é alto. Este trabalho faz uso do método do gradiente conjugado, baseado no esquema de Tikhonov aplicado à deconvolução, cujo parâmetro de regularização é calculado iterativamente tendo em conta o critério de discrepância de Morozov na função objetivo. Fazendo uso de dados sísmicos sintéticos como dados reais empilhados, foi realizado o processo de deconvolução com e sem regularização baseado no algoritmo do gradiente conjugado. Realizou-se uma comparação do esquema proposto. Aplicando a deconvolução regularizada nos dados sintéticos mostra uma melhoria na estabilidade da solução e os dados sísmicos pós-empilhados mostraram um aumento da resolução vertical mesmo com ruído nos dados. D esde el punto de vista de la teoría de problemas inversos, la deconvolución puede ser entendida como una inversión lineal de un problema mal-puesto y mal-condicionado. La característica del mal-condicionamiento del operador de deconvolución hace que la solución del problema inverso sea sensitiva a errores en los datos. La regularización de Tikhonov es el método más común empleado para estabilizar la solución y obtener su unicidad. Sin embargo, los resultados del método de Tikhonov no proveen calidad suficiente cuando el ruido en los datos es fuerte. Este trabajo hace uso del método del gradiente conjugado, basado en el esquema de Tikhonov aplicado a la ...

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Survey Design Optimization by Illumination Analysis in an Area With Complex Structure and Tight Environmental Restricctions

Duarte

Agudelo

Saavedra

et al. 2015

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Subthrust imaging artifacts analysis by Image Ray modeling

Becerra¹,

Agudelo

Camacho

et al. 2012

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Aplicación del método de iluminación por campo de onda en un modelo subthrust en la Cuenca del Valle Superior del Magdalena (Colombia)

Chajín¹,

Camacho²,

Otero³

2021

bol. geol.

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Complex structures like subthrust show high risk during the definition of structural traps in low quality seismic images in depth, so we can use the structural interpretation to simulate the subthrust illumination by wavefield of a prospect area in order to reduce the uncertainty and support the oil exploration process. In general, we performed an exercise of 2D geophysical modeling using a wavefield illumination simulator. At first, we interpreted two geological models from a seismic line in depth. The geological interpretation was adjusted with information about structural styles in this part of Upper Magdalena Basin. Then, we use a velocity scenario and assign these velocities to both geological models. The wavefield illumination method allows us to see all of the wavepaths in the different pair of source-receivers in order to do a fast evaluation of the structure illumination. This could be used to improve the seismic acquisitions in structurally complex media.

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Mesoscopic P-wave attenuation model to estimation of free gas saturation

Cabrera

Vivas

Camacho

et al. 2013

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German Camacho

A proposal for regularized inversion for an ill-conditioned deconvolution operator

Survey Design Optimization by Illumination Analysis in an Area With Complex Structure and Tight Environmental Restricctions

Subthrust imaging artifacts analysis by Image Ray modeling

Aplicación del método de iluminación por campo de onda en un modelo subthrust en la Cuenca del Valle Superior del Magdalena (Colombia)

Mesoscopic P-wave attenuation model to estimation of free gas saturation

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