Interpretation of PFE (Percent Frequency Effect), Chargeability, and Phase Shift data.
Mastering 1D DC Resistivity and IP Inversion: A Complete Guide to Interpex IX1D v3.50
Whether you are exploring for groundwater, mapping environmental contamination, or engineering stable foundations, understanding how to maximize the utility of IX1D v3.50 ensures highly reliable subsurface models. 1. Core Capabilities of Interpex IX1D v3.50
At its heart, IX1D solves the geophysical inverse problem: given measured apparent resistivity values, find the true resistivity and thickness of subsurface layers. The software supports two distinct inversion workflows: interpex ix1d v350
Interpex has hinted at releasing a 64-bit version to handle larger datasets and integrate with GIS workflows. However, the v350 build is stable, and the company focuses on bug fixes rather than feature creep. For users needing 2D inversion, Interpex offers ; for TEM data, IX1D-TEM . The v350 designation will likely remain current for several years.
Detailed documentation and software updates are available on the Interpex IX1D product page .
Understanding how the software processes geophysical data requires looking at its dual-mode mathematical processing engine. Core Capabilities of Interpex IX1D v3
IX1D provides complete processing tools for frequency-domain electromagnetic data.
At its core, IX1D is an inversion program. This is where science meets art.
The software excels at converting apparent resistivity curves (measured in ohm-m) into a layered earth model—typically 2 to 7 layers—showing true resistivity and thickness for each layer. This output is essential for: For users needing 2D inversion, Interpex offers ;
The software takes that squiggly line and asks, "What combination of underground rock layers would produce this specific result?"
You might ask: With modern 2D ERT and 3D resistivity imaging, why invest time in IX1D v350?
With the appropriate modular licensing extension, the software models time-domain EM returns utilizing central loop, fixed loop, or coincident loop fieldwork layouts. Key Features and User Interface Elements