SimPEG.electromagnetics.static.resistivity.receivers.BaseRx#

class SimPEG.electromagnetics.static.resistivity.receivers.BaseRx(locations, data_type='volt', orientation=None, projField='phi', **kwargs)[source]#

Bases: BaseRx

Base DC/IP receiver class

Parameters:
locations(n_loc, n_dim) numpy.ndarray

Receiver locations.

data_type{“volt”, “apparent_resistivity”, “apparent_chargeability”}

Type of data observered

orientation{None, “x”, “y”, “z”}
projField{“phi”, “e”, “j”}

Fields solved on the mesh.

Attributes

data_type

Data type; i.e. "volt", "apparent_resistivity", "apparent_chargeability".

geometric_factor

Calculate geometric factor for every receiver.

orientation

Orientation of the receiver.

projField

Fields on the mesh

Methods

eval(src, mesh, f)

Project fields from the mesh to the receiver(s).

evalDeriv(src, mesh, f[, v, adjoint])

Derivative of the projected fields with respect to the model, times a vector.

Galleries and Tutorials using SimPEG.electromagnetics.static.resistivity.receivers.BaseRx#

DC Analytic Dipole

DC Analytic Dipole

Simulate a 1D Sounding over a Layered Earth

Simulate a 1D Sounding over a Layered Earth

Least-Squares 1D Inversion of Sounding Data

Least-Squares 1D Inversion of Sounding Data

Sparse 1D Inversion of Sounding Data

Sparse 1D Inversion of Sounding Data

Parametric 1D Inversion of Sounding Data

Parametric 1D Inversion of Sounding Data