A.Y. Barkov scite author profile

A.Y. Barkov

5Publications

27Citation Statements Received

0Citation Statements Given

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Gazprom (Russia)

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Nonlinear multitrace genetic inversion applied on seismic data across the Shtokman field, offshore northern Russia

Veeken¹,

Приезжев

Shmaryan

et al. 2009

GEOPHYSICS

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Seismic inversion is an important processing step for characterizing reservoirs with properties predicted away from well controls. A new approach to inversion and reservoir modeling is based on a nonlinear multitrace seismic inversion algorithm. Neural-network solutions for the inversion problem exist, whereby a multiattribute analysis increases output reliability. A more robust 3D working method is proposed that uses a simple nonlinear operator. The method is fast, user friendly, and cost effective. Initial input is formed by poststack seismic data and relevant well logs (e.g., acoustic impedance). The latter serve as a training and control point set to calculate optimized weights in the neural-network scheme. The nonlinear output operator trans-forms the seismic data into the desired log-response equivalent. Crucial is finding a real regional minimum for the difference between the computed synthetic and the recorded seismic traces at the target location. Intelligent data decimation eliminates the number of unknown coefficients in the operator computation. Moreover, it speeds up the true 3D minicube processing. Genetic inversion can be applied to properties other than acoustic impedance. However, these attributes should have a meaningful physical relationship to the seismic data, e.g., porosity, density, and saturation. Geologic modeling constitutes the last step of the inversion workflow. The geologic model is populated stochastically with relevant reservoir properties. The capabilities of the genetic inversion were tested on a semicontrolled seismic example and a real case study across the Shtokman gas field, Russia.

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3D geological model for a gas-saturated reservoir based on simultaneous deterministic partial stack inversion.

Yakovlev¹,

Stein²,

Barkov³

et al. 2010

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The Implementation of Neural Network to Predict Reservoir Characteristics from Seismic Attributes and Inversion Results

Ampilov¹,

Barkov²,

Sharov³

et al. 2008

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The Role of 3D Seismic Data Reprocessing in Order to Increase the Reliability of Geological Interpretation

Ampilov¹,

Barkov²,

Stein³

et al. 2008

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Accurate Lithology and Porosity Prediction using Simultaneous Angle Stack Inversion on the Shtokman Field

Yakovlev¹,

Barkov²,

Ampilov³

et al. 2010

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A.Y. Barkov

Nonlinear multitrace genetic inversion applied on seismic data across the Shtokman field, offshore northern Russia

3D geological model for a gas-saturated reservoir based on simultaneous deterministic partial stack inversion.

The Implementation of Neural Network to Predict Reservoir Characteristics from Seismic Attributes and Inversion Results

The Role of 3D Seismic Data Reprocessing in Order to Increase the Reliability of Geological Interpretation

Accurate Lithology and Porosity Prediction using Simultaneous Angle Stack Inversion on the Shtokman Field

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