Sinan Fang scite author profile

This study applied the finite-difference time-domain (FDTD) method to forward modeling of the low-frequency crosswell electromagnetic (EM) method. Specifically, we implemented impulse sources and convolutional perfectly matched layer (CPML). In the process to strengthen CPML, we observed that some dispersion was induced by the real stretch κ, together with an angular variation of the phase velocity of the transverse electric plane wave; the conclusion was that this dispersion was positively related to the real stretch and was little affected by grid interval. To suppress the dispersion in the CPML, we first derived the analytical solution for the radiation field of the magneto-dipole impulse source in the time domain. Then, a numerical simulation of CPML absorption with high-frequency pulses qualitatively amplified the dispersion laws through wave field snapshots. A numerical simulation using low-frequency pulses suggested an optimal parameter strategy for CPML from the established criteria. Based on its physical nature, the CPML method of simply warping space-time was predicted to be a promising approach to achieve ideal absorption, although it was still difficult to entirely remove the dispersion.

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Capability of self-organizing map neural network in geophysical log data classification: Case study from the CCSD-MH

Konaté

Pan

Fang

et al. 2015

Journal of Applied Geophysics

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3D crosswell electromagnetic inversion based on radial basis function neural network

et al. 2020

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Sinan Fang

Support vector machine as an alternative method for lithology classification of crystalline rocks

A fast forward algorithm for real-time geosteering of azimuthal gamma-ray logging

Crosswell electromagnetic modeling from impulsive source: Optimization strategy for dispersion suppression in convolutional perfectly matched layer

Capability of self-organizing map neural network in geophysical log data classification: Case study from the CCSD-MH

3D crosswell electromagnetic inversion based on radial basis function neural network

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