Inverse Methods in Electromagnetic Imaging

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2 Bde, Nato Science Series C: 143

ISBN:	9401094462
ISBN 13:	9789401094467
Herausgeber:	W M Boerner/Hans Brand/Leonard A Cram et al
Verlag:	Springer Verlag GmbH
Umfang:	xliv, 1346 S.
Erscheinungsdatum:	23.08.2014
Auflage:	1/1985
Produktform:	Mehrteiliges Produkt
Einband:	Kartoniert

InhaltsangabeTopic 0 – Memorial Paper and Overview.- 0.1 (OS.3) Transient Current Density Waveforms on a Perfectly Conducting Sphere.- 0.2 (OS.4) Inverse Methods in Electromagnetic Imaging.- Topic I – Mathematical Inverse Methods and Transient Techniques.- I.1 (TS.1) Critical Analysis of the Mathematical Methods Used in Electromagnetic Inverse Theories: A Quest for New Routes in the Space of Parameters.- I.2 (SR.2) Topological Approach to Inverse Scattering in Remote Sensing.- I.3 (IS.3) A Solution of the Time-Dependent Inverse Source Problem for Three-Dimensional Electromagnetic Wave Propagation.- I.4 (IS.2) Transient Methods in Electromagnetic Imaging.- I.5 (I5.4) Theoretical Study and Numerical Resolution of Inverse Problems via the Functional Derivatives.- I.6 (IS.5) Dissipative Inverse Problems in the Time Domain.- I.7 (IM.3) Applications of Almost-Periodic Functions to Inverse Scattering Theory.- I.8 (TS.3) One Dimensional Time-Domain Inverse Scattering Applicable to Electromagnetic Imaging.- I.9 (IS.2) Inverse Electromagnetic Scattering for Radially Inhomogeneous Dielectric Spheres.- I.10 (SP.6) Applications of the Abel Transform in Remote Sensing and Related Problems.- I.11 (IM.1*) Symmetry Techniques for Direct & Inverse Scattering.- I.12 (OI.5) Reconstruction of Refractive Index Profile of a Stratified Medium.- I.13 (IM.4) Inverse Diffraction Problem.- I.14 (IM.5) Application of the Christoffel-Hurwitz Inversion Identity to Electromagnetic Imaging.- Topic II – Numerical Inversion Methods.- II.1 (IS.1) Recent Advances in the Theory of Inverse Scattering with Sparse Data.- II.2 (PT.2) The Limited Angle Problem in Reconstruction from Projections.- II.3 (IM.1) Direct & Inverse Halfspace Scalar Diffraction: Some Models and Problems.- II.4 (NM.2) Stability and Resolution in Electromagnetic Inverse Scattering – Part 1.- II.5 (NM.3*) Stability and Resolution in Electromagnetic Inverse Scattering – Part 2.- II.6 (OI.3) Object Reconstruction from Partial Information.- II.7 (NM.5) Approximation of Impulse Response from Time Limited Input and Output: Theory and Experiment.- II.8 (NM.4) Approximation Schema for Generalized Inverses: Spectral Results & Regularization of Ill-Posed Problems.- II.9 (SP.1) Maximum Entropy Methods in Electromagnetic/Geophysical/Ultrasonic Imaging.- II.10 (NM.1) Detailed Near/Far Field Modeling of Complex Electrically Large Three-Dimensional Structures.- II.11 (TS.5) Applications of Time-Domain Inverse Scattering to Electromagnetic Waves.- II.12 (TS.4) Time-Dependent Radar Target Signatures, Synthesis and Detection of Electromagnetic Authenticity Features.- II.13 (SR.3) Singularities in Quasi-Geometrical Imaging.- II.14 (RS.5) Deconvolution of Microwave Radiometry Data.- Topic III – Polarization Utilization in the Electromagnetic Vector Inverse Problem.- III.1 (RP.1*) Polarization Descriptors – Utilization of Symmetries.- III.2 (RP.5) Polarization Information Utilization in Primary Radar: An Introduction & Update to Activities at Shape Technical Centre.- III.3 (MM.2) Polarization Measurements in Radioastronomy: Determination of the Polarization – Reflection – Matrix.- III.4 (RS.4) Polarization-Dependence in Microwave Radiometry.- III.5 (SP.3) Multistatic Vector Inverse Scattering.- III.6 (RP.2) Extension of Kennaugh’s Optimal Polarization Concept to the Asymmetric Matrix Case.- III.7 (RP.3) On the Null Representation of Polarization Parameters.- III.8 (MM.3*) Theory and Design of a Dual Polarization Radar for Clutter Analysis.- III.9 (SR.3*) Radar Target Handling in Clutter, Consideration of the Measurement System.- III.10 (SR.4) Study of Two Scatterer Interference with a Polarimetric FM/CW Radar.- III.11 (SP.5) Polarization Dependence in Angle Tracking Systems.- III.12 (SS.4) Interpretation of High Resolution Polarimetric Radar Target Down-Range Signatures Using Kennaugh’s and Huynen’s Target Characteristic Operator Theories.- III.13 (MM.5) Demands on Polarization Purity in the Measurement and Imaging of Distribute

Artikelnummer: 7050421 Kategorie: Elektronik, Elektrotechnik, Nachrichtentechnik

Beschreibung

Beschreibung

This NATO Advanced Research Workshop on "Inverse Methods in Electro magnetic Imaging" has come at a time of greatly increased interest in using electromagnetic imaging methods as tools for remote sens ing, material testing and medical diagnosis. Spurred by a combina tion of recent advances in sensor and device technology spanning the entire m-to-sub-mm wavelengths, the infra-red, optical, ultraviolet and x-ray regions of the electromagnetic spectrum, the rapid devel opment of radar polarimetry including the deployment of active/pas sive sensors on spacecraft platforms, it has become evident that these advanced imaging techniques can only then become useful when supported by well-developed inverse scattering theories for proper consistent and efficient data interpretation. However, these data interpretative techniques, which are urgently needed in several mil itary and civilian areas, are in many aspects not yet completely de veloped. Thus, the main purpose of this NATO-ARW-IMEI-1983 was to bring together internationally renowned key experts of this new scientific discipline of Inverse Methods in Electromagnetic Imaging and have them prepare well-written overviews, treatises on new areas, papers on special topics; have them deliberate on still unre sovled problems in worki~g discussion groups, and then report back on their important findings to the entire NATO Scientific Community in dealing with these exciting current developments.