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Inversion of nuclear well-logging data using neural networks
Authors:Elsa Aristodemou  Christopher Pain  Cassiano de Oliveira  Tony Goddard  Christopher Harris
Institution:Applied Modelling and Computational Group, Department of Earth Science and Engineering, Imperial College London, London SW7 2BP, UK;, and Shell International and Production Inc., 3737 Bellaire Blvd, PO Box 481, Houston, TX 77001-0481, USA
Abstract:This work looks at the application of neural networks in geophysical well‐logging problems and specifically their utilization for inversion of nuclear downhole data. Simulated neutron and γ‐ray fluxes at a given detector location within a neutron logging tool were inverted to obtain formation properties such as porosity, salinity and oil/water saturation. To achieve this, the forward particle‐radiation transport problem was first solved for different energy groups (47 neutron groups and 20 γ‐ray groups) using the multigroup code EVENT. A neural network for each of the neutron and γ‐ray energy groups was trained to re‐produce the detector fluxes using the forward modelling results from 504 scenarios. The networks were subsequently tested on unseen data sets and the unseen input parameters (formation properties) were then predicted using a global search procedure. The results obtained are very encouraging with formation properties being predicted to within 10% average relative error. The examples presented show that neural networks can be applied successfully to nuclear well‐logging problems. This enables the implementation of a fast inversion procedure, yielding quick and reliable values for unknown subsurface properties such as porosity, salinity and oil saturation.
Keywords:
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