Sphere-ob Airborne EM modelling
====
Sphere-ob (sphere-overburden) is a python program developed to calculate and plot the airborne TDEM response of a sphere or ‘dipping sphere’ underlying conductive overburden.
The response is calculated using the semi-analytic solution set presented in Desmerais & Smith (2016), this solution set is computationally efficient and allows the user to model a thin sheet in addition to a sphere, by artificially restricting current flow to parallel planes within an anisotropic sphere.
Installation
====
If python is installed on your system, Sphereob can be installed with pip + git by opening command prompt in administrator and using::
pip install git+https://github.com/anonseg2023/sphereob
Alternatively, the repository can be manually downloaded and installed using the install script, i.e., by navigating to the SPHERE-OB folder, opening a python / anaconda prompt in administrator and running::
python setup.py install
Dependencies
====
* matplotlib
* numpy
* scipy
* pyqt5
* pandas
Installing SPHERE-OB through pip + git will result in these libraries being installed in your current python environment.
Getting Started
====
Once installed, the GUI can be launched from the command line as::
sphereob
The program will launch and the user can now begin plotting airborne EM responses for varying survey configurations and geologic models.
Documentation
====
Documentation, including explanations of the model parameters and data importers is included in SPHERE-OB.pdf
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