Reproduce: DCIP OcTree#
Simulating Pole-Dipole DC Resistivity Data over a Conductive and a Resistive Block#
Pole-dipole induced polarization data are simulated over a conductive and chargeable block and over a resistive block. The background is non-chargeable and has a conductivity is \(\sigma_0\) = 0.01 S/m. The conductive-chargeable block has a conductivity of \(\sigma_c\) = 0.1 S/m and an intrinsic chargeability of \(\eta_c\) = 0.1 V/V. The resistor is non-chargeable and has a conductivity of \(\sigma_r\) = 0.001 S/m. Both blocks are oriented along the Northing direction and have x, y and z dimensions of 400 m, 1600 m and 320 m. Both blocks are buried at a depth of 160 m.
Apparent chargeability data are simulated with a pole-dipole configuration. The survey consists of 9 West-East survey lines, each with a length of 2000 m. The line spacing is 250 m and the electrode spacing is 100 m.
UBC-GIF DCIP OcTree Package Details#
DCIP OcTree is a voxel cell DC/IP forward modeling and inversion package developed by the UBC Geophysical Inversion Facility. This software is proprietary and can ONLY be acquired through appropriate commerical licenses. The numerical approach of the forward simulation is described in the online manual’s theory section. If you have a valid license, there are instructions for reproducing the results (add link).
Running the Forward Simulation#
Step 1: Acquiring a commercial or academic license.#
Explain and link to where you would get licenses. Make ABSOLUTELY CLEAR we don’t just give out the licenses willy-nilly.
Step 2: Downloading and extracting assets#
Link and instructions for download
Step 3: Running the forward modeling executable#
Brief description of what files are needed
Link to the manual page where we run the forward simulation