Leonard R. Pasion scite author profile

An assumption is made that the Time Domain Electromagnetic (TEM) response of a buried axisymmetric metallic object can be modelled as the sum of two dipoles centered at the midpoint of the body. The strength of the dipoles depends upon the relative orientation between the object and the source field, and also upon the shape and physical properties of the body. Upon termination of the source field, each dipole is assumed to decay as [Formula: see text]. The parameters [Formula: see text], [Formula: see text], [Formula: see text] and [Formula: see text] depend upon the conductivity, permeability, size and shape of the object, and these can be extracted from the measurements by using a nonlinear parametric inversion algorithm. Investigations carried out using an analytic solution for a sphere and laboratory measurements of steel and aluminum rectangular prisms, suggest the following two-step methodology: (1) The value of [Formula: see text] is first used as a diagnostic to assess whether the metallic object is non-magnetic or magnetic, (2) the ratios of [Formula: see text] and [Formula: see text] are then diagnostic indicators as to whether the geometry is plate-like (uninteresting) or rod-like (a high candidate for being a UXO). Results from the application of this algorithm to a TEM field data set acquired at the United States Army Corps of Engineers Research and Development Centre (ERDC) UXO Test Site have successfully identified a UXO to be magnetic and rod-like.

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Cooperative Inversion of Time Domain Electromagnetic and Magnetometer Data for The Discrimination of Unexploded Ordnance

Pasion¹,

Billings²,

Kingdon³

et al. 2008

Journal of Environmental & Engineering Geophysics

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Quantitative interpretation of pore water O2 and pH distributions in deep-sea sediments

Jourabchi

Meile

Pasion

et al. 2008

Geochimica et Cosmochimica Acta

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Application of a library based method to time domain electromagnetic data for the identification of unexploded ordnance

Pasion

Billings

Oldenburg

et al. 2007

Journal of Applied Geophysics

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Evaluating the effects of magnetic soils on TEM measurements for UXO detection

Pasion

Billings

Oldenburg

2002

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Leonard R. Pasion

A Discrimination Algorithm for UXO Using Time Domain Electromagnetics

Cooperative Inversion of Time Domain Electromagnetic and Magnetometer Data for The Discrimination of Unexploded Ordnance

Quantitative interpretation of pore water O2 and pH distributions in deep-sea sediments

Application of a library based method to time domain electromagnetic data for the identification of unexploded ordnance

Evaluating the effects of magnetic soils on TEM measurements for UXO detection

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