Etminan, AslanGürel, Levent2016-02-082016-02-0820141522-3965http://hdl.handle.net/11693/27408Date of Conference: 6-11 July 2014A general framework for the shape reconstruction of conducting objects is presented with the Newton minimization approach. Using a fully numerical method, the initial-guess object is evolved to reconstruct the target. The object is modeled by triangles such that the vertices are the unknowns of the inverse-scattering problem. The cost function is minimized as the evolving object converges to the actual target in merely tens of iterations.EnglishCost functionsNumerical methodsConducting objectsInitial guessInverse scattering problemsNear-field measurementNewton minimizationShape reconstructionInverse problemsShape reconstruction of three-dimensional conducting objects via near-field measurementsConference Paper10.1109/APS.2014.6904408