Electromagnetic Induction From Highly Permeable and Conductive Ellipsoids Under Arbitrary Excitation: Application to the Detection of Unexploded Ordnances

The secondary field produced by 3-D highly permeable and conductive objects is computed in the electromagnetic induction regime, with the purpose of modeling unexploded ordnances (UXOs) and surrounding clutter. The analytical formulation is based on the ellipsoidal coordinate system that is able to...

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Veröffentlicht in:	IEEE transactions on geoscience and remote sensing 2008-04, Vol.46 (4), p.1164-1176
Hauptverfasser:	Barrowes, B.E., O'Neill, K., Grzegorczyk, T.M., Beijia Zhang, Jin Au Kong
Format:	Artikel
Sprache:	eng
Schlagworte:	Applied geophysics Computation Earth sciences Earth, ocean, space Electromagnetic induction Electromagnetic induction (EMI) Electromagnetic modeling Ellipsoids Exact sciences and technology Frequency Geometry Internal geophysics Laplace equations Magnetic analysis Mathematical analysis Mathematical models Numerical prediction Partial differential equations small penetration approximation (SPA) Soil Soil (material) Solid modeling spheroids Studies unexploded ordnance (UXO) Wave equations
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container_title	IEEE transactions on geoscience and remote sensing
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creator	Barrowes, B.E. O'Neill, K. Grzegorczyk, T.M. Beijia Zhang Jin Au Kong
description	The secondary field produced by 3-D highly permeable and conductive objects is computed in the electromagnetic induction regime, with the purpose of modeling unexploded ordnances (UXOs) and surrounding clutter. The analytical formulation is based on the ellipsoidal coordinate system that is able to model real 3-D geometries as opposed to bodies of revolutions like within a spheroidal approach. At the frequencies of interest (tens of hertz to hundreds of kilohertz), conduction currents in the soil are negligible, and the fields are computed in the magnetoquasistatic regime based on the Laplace equation. Inside the objects, where the wave equation governs the field distribution, the currents are assumed to have a small penetration depth, allowing for the analytical simplification of the field components, which become decoupled at the surface. This approximation, which is valid across the entire frequency spectrum because of the high permeability and conductivity, avoids the necessity of using ellipsoidal wave functions and results in a considerable saving of computational time. Numerical results favorably compare with numerical and experimental data, which proves the usefulness of our method to model UXOs in clutter-contaminated soils. Finally, the optimization approach used to match our numerical predictions with experimental data demonstrates the possibility of remotely inferring the material properties of objects.
doi_str_mv	10.1109/TGRS.2007.912935
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The analytical formulation is based on the ellipsoidal coordinate system that is able to model real 3-D geometries as opposed to bodies of revolutions like within a spheroidal approach. At the frequencies of interest (tens of hertz to hundreds of kilohertz), conduction currents in the soil are negligible, and the fields are computed in the magnetoquasistatic regime based on the Laplace equation. Inside the objects, where the wave equation governs the field distribution, the currents are assumed to have a small penetration depth, allowing for the analytical simplification of the field components, which become decoupled at the surface. This approximation, which is valid across the entire frequency spectrum because of the high permeability and conductivity, avoids the necessity of using ellipsoidal wave functions and results in a considerable saving of computational time. Numerical results favorably compare with numerical and experimental data, which proves the usefulness of our method to model UXOs in clutter-contaminated soils. Finally, the optimization approach used to match our numerical predictions with experimental data demonstrates the possibility of remotely inferring the material properties of objects.</description><identifier>ISSN: 0196-2892</identifier><identifier>EISSN: 1558-0644</identifier><identifier>DOI: 10.1109/TGRS.2007.912935</identifier><identifier>CODEN: IGRSD2</identifier><language>eng</language><publisher>New York, NY: IEEE</publisher><subject>Applied geophysics ; Computation ; Earth sciences ; Earth, ocean, space ; Electromagnetic induction ; Electromagnetic induction (EMI) ; Electromagnetic modeling ; Ellipsoids ; Exact sciences and technology ; Frequency ; Geometry ; Internal geophysics ; Laplace equations ; Magnetic analysis ; Mathematical analysis ; Mathematical models ; Numerical prediction ; Partial differential equations ; small penetration approximation (SPA) ; Soil ; Soil (material) ; Solid modeling ; spheroids ; Studies ; unexploded ordnance (UXO) ; Wave equations</subject><ispartof>IEEE transactions on geoscience and remote sensing, 2008-04, Vol.46 (4), p.1164-1176</ispartof><rights>2008 INIST-CNRS</rights><rights>Copyright The Institute of Electrical and Electronics Engineers, Inc. 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The analytical formulation is based on the ellipsoidal coordinate system that is able to model real 3-D geometries as opposed to bodies of revolutions like within a spheroidal approach. At the frequencies of interest (tens of hertz to hundreds of kilohertz), conduction currents in the soil are negligible, and the fields are computed in the magnetoquasistatic regime based on the Laplace equation. Inside the objects, where the wave equation governs the field distribution, the currents are assumed to have a small penetration depth, allowing for the analytical simplification of the field components, which become decoupled at the surface. This approximation, which is valid across the entire frequency spectrum because of the high permeability and conductivity, avoids the necessity of using ellipsoidal wave functions and results in a considerable saving of computational time. Numerical results favorably compare with numerical and experimental data, which proves the usefulness of our method to model UXOs in clutter-contaminated soils. Finally, the optimization approach used to match our numerical predictions with experimental data demonstrates the possibility of remotely inferring the material properties of objects.</description><subject>Applied geophysics</subject><subject>Computation</subject><subject>Earth sciences</subject><subject>Earth, ocean, space</subject><subject>Electromagnetic induction</subject><subject>Electromagnetic induction (EMI)</subject><subject>Electromagnetic modeling</subject><subject>Ellipsoids</subject><subject>Exact sciences and technology</subject><subject>Frequency</subject><subject>Geometry</subject><subject>Internal geophysics</subject><subject>Laplace equations</subject><subject>Magnetic analysis</subject><subject>Mathematical analysis</subject><subject>Mathematical models</subject><subject>Numerical prediction</subject><subject>Partial differential equations</subject><subject>small penetration approximation (SPA)</subject><subject>Soil</subject><subject>Soil (material)</subject><subject>Solid modeling</subject><subject>spheroids</subject><subject>Studies</subject><subject>unexploded ordnance (UXO)</subject><subject>Wave equations</subject><issn>0196-2892</issn><issn>1558-0644</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2008</creationdate><recordtype>article</recordtype><sourceid>RIE</sourceid><recordid>eNp9kUtr3DAUhU1poNOk-0I3olCajad6W-pumEweEEhpk7WR5etEQWO5kqYkfyW_Npo6ZNFF70Zc6Tvnonuq6iPBS0Kw_nZ99vPXkmLcLDWhmok31YIIoWosOX9bLTDRsqZK03fV-5TuMSZckGZRPW082BzD1tyOkJ1FF2O_s9mFEZ2WW3Tubu_8I_oBcQum84DM2KN1mKE_gDbeuykF1yd0M_YQ0Sp2LkcTH9Hmwbps9lbf0WqavLN_G5QDyneATiDDPCgMRQsPkw899Ogq9qMZLaSj6mAwPsGHl_OwujndXK_P68urs4v16rK2TIlcGwbU2s5aYrkUnHWcMk5sowaBB9F0SjHWWUl4Q5RSPTeiN8JgUIBBa8PZYfV19p1i-L2DlNutSxa8NyOEXWpVQwknROBCHv-XJLIhVGilm4J-_ge9D7s4ln-0SlLKmNK6QHiGbAwpRRjaKbpt2V1LcLtPtd2n2u5TbedUi-TLi69J1vghllW59KqjmHIpG1a4TzPnAOD1mZeSxecZpkys9g</recordid><startdate>20080401</startdate><enddate>20080401</enddate><creator>Barrowes, B.E.</creator><creator>O'Neill, K.</creator><creator>Grzegorczyk, T.M.</creator><creator>Beijia Zhang</creator><creator>Jin Au Kong</creator><general>IEEE</general><general>Institute of Electrical and Electronics Engineers</general><general>The Institute of Electrical and Electronics Engineers, Inc. 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The analytical formulation is based on the ellipsoidal coordinate system that is able to model real 3-D geometries as opposed to bodies of revolutions like within a spheroidal approach. At the frequencies of interest (tens of hertz to hundreds of kilohertz), conduction currents in the soil are negligible, and the fields are computed in the magnetoquasistatic regime based on the Laplace equation. Inside the objects, where the wave equation governs the field distribution, the currents are assumed to have a small penetration depth, allowing for the analytical simplification of the field components, which become decoupled at the surface. This approximation, which is valid across the entire frequency spectrum because of the high permeability and conductivity, avoids the necessity of using ellipsoidal wave functions and results in a considerable saving of computational time. Numerical results favorably compare with numerical and experimental data, which proves the usefulness of our method to model UXOs in clutter-contaminated soils. Finally, the optimization approach used to match our numerical predictions with experimental data demonstrates the possibility of remotely inferring the material properties of objects.</abstract><cop>New York, NY</cop><pub>IEEE</pub><doi>10.1109/TGRS.2007.912935</doi><tpages>13</tpages></addata></record>
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subjects	Applied geophysics Computation Earth sciences Earth, ocean, space Electromagnetic induction Electromagnetic induction (EMI) Electromagnetic modeling Ellipsoids Exact sciences and technology Frequency Geometry Internal geophysics Laplace equations Magnetic analysis Mathematical analysis Mathematical models Numerical prediction Partial differential equations small penetration approximation (SPA) Soil Soil (material) Solid modeling spheroids Studies unexploded ordnance (UXO) Wave equations
title	Electromagnetic Induction From Highly Permeable and Conductive Ellipsoids Under Arbitrary Excitation: Application to the Detection of Unexploded Ordnances
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