simpeg.electromagnetics.static.utils.apparent_resistivity_from_voltage#

simpeg.electromagnetics.static.utils.apparent_resistivity_from_voltage(survey, volts, space_type='half space', eps=1e-10)[source]#

Calculate apparent resistivities from normalized voltages.

Parameters:
surveysimpeg.electromagnetics.static.resistivity.Survey

A DC survey

volts(nD) numpy.ndarray

Normalized voltage measurements [V/A]

space_type{‘half space’, ‘whole space’}

Compute apparent resistivity assume a half space or whole space.

epsfloat, default=1e-10

Stabilization constant in case of a null geometric factor

Returns:
numpy.ndarray

Apparent resistivities for all data

Galleries and Tutorials using simpeg.electromagnetics.static.utils.apparent_resistivity_from_voltage#

2.5D Forward Simulation of a DCIP Line

2.5D Forward Simulation of a DCIP Line

DC/IP Forward Simulation in 3D

DC/IP Forward Simulation in 3D

2.5D DC Resistivity and IP Least-Squares Inversion

2.5D DC Resistivity and IP Least-Squares Inversion

3D Least-Squares Inversion of DC and IP Data

3D Least-Squares Inversion of DC and IP Data

DC Resistivity Forward Simulation in 2.5D

DC Resistivity Forward Simulation in 2.5D

DC Resistivity Forward Simulation in 3D

DC Resistivity Forward Simulation in 3D

Convert 3D DC/IP Data to 2D Lines

Convert 3D DC/IP Data to 2D Lines

2.5D DC Resistivity Inversion with Sparse Norms

2.5D DC Resistivity Inversion with Sparse Norms

3D Least-Squares Inversion of DC Resistivity Data

3D Least-Squares Inversion of DC Resistivity Data