EM tools#
Impedance-tensor analytics from pycsamt.emtools: survey
inspection and quality control, dimensionality and strike analysis,
static-shift and noise correction, spectra, transfer functions, and
multi-station diagnostics — one worked example per module. Each example
pairs with a narrative page in the EM tools guide.
Novel MT visualizations (pycsamt.emtools.advanced)
CSAMT axial-anisotropy diagnostics (pycsamt.emtools.anisotropy)
Bostick depth and CSUMT survey design (pycsamt.emtools.csumt)
Polar uncertainty diagnostics (pycsamt.emtools.diag)
Phase-tensor dimensionality: rule-based and dictionary-learned (pycsamt.emtools.dimensionality)
CSAMT field-zone classification (pycsamt.emtools.fieldzone)
Frequency editing, resampling, and QC (pycsamt.emtools.frequency)
Gradient-based CSAMT pseudo-sections (pycsamt.emtools.gradient_imaging)
Impedance-tensor diagnostics (pycsamt.emtools.impedance)
First-look survey inspection (pycsamt.emtools.inspect)
L-curve regularization-parameter selection (pycsamt.emtools.lcurve)
Multi-station diagnostic panels (pycsamt.emtools.plot)
Quality-control confidence scoring (pycsamt.emtools.qc)
Noise removal and spatial filtering (pycsamt.emtools.remove_noise)
Phase-tensor and Bahr skew diagnostics (pycsamt.emtools.skew)
Phased-array CSAMT transmitter design (pycsamt.emtools.source_array)
CSAMT source overprint and near-field effects (pycsamt.emtools.source_effects)
Cross-spectra analysis and visualization (pycsamt.emtools.spectra)
Static-shift estimation, correction, and QC (pycsamt.emtools.ss)
Geoelectric strike estimation and visualization (pycsamt.emtools.strike)
Phase-tensor analysis and tensor editing (pycsamt.emtools.tensor)
Induction arrows and tipper diagnostics (pycsamt.emtools.tf)