SimPEG.electromagnetics.static.utils.generate_dcip_sources_line#

SimPEG.electromagnetics.static.utils.generate_dcip_sources_line(survey_type, data_type, dimension_type, end_points, topo, num_rx_per_src, station_spacing)[source]#

Generate the source list for a 2D or 3D DC/IP survey line.

This utility will create the list of DC/IP source objects for a single line of 2D or 3D data. The topography, orientation, spacing and number of receivers can be specified by the user. This function can be used to define multiple lines of DC/IP, which can be appended to create the sources for an entire survey.

Parameters
survey_type{‘dipole-dipole’, ‘pole-dipole’, ‘dipole-pole’, ‘pole-pole’}

Survey type.

data_type{‘volt’, ‘apparent_conductivity’, ‘apparent_resistivity’, ‘apparent_chargeability’}

Data type.

dimension_type{‘2D’, ‘3D’}

Which dimension you are using.

end_pointsnumpy.array

Horizontal end points [x1, x2] or [x1, x2, y1, y2]

topo(n, dim) numpy.ndarray

Define survey topography

num_rx_per_srcint

Maximum number of receivers per souces

station_spacingfloat

Distance between stations

Returns
SimPEG.electromagnetics.static.resistivity.Survey

A DC survey object

Galleries and Tutorials using SimPEG.electromagnetics.static.utils.generate_dcip_sources_line#

2.5D Forward Simulation of a DCIP Line

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

DC/IP Forward Simulation in 3D
DC Resistivity Forward Simulation in 2.5D

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

DC Resistivity Forward Simulation in 3D