Image reconstruction of buried multiple conductors by genetic algorithms

## Abstract Inverse scattering of an imperfectly conducting cylinder buried in a half‐space is presented. A conducting cylinder of unknown shape and conductivity is buried in one half‐space and scatters the incident field from another half‐space. Based on the measured scattered field and the bounda

The image reconstruction of buried inhomogeneous dielectric cylinders coated on a conductor with known cross-section is investigated. Inhomogeneous dielectric cylinders coated on a conductor is buried in one half space and scatter a group of unrelated waves incident from another half space, where th

## Abstract This article presents a computational approach to the imaging of a partially immersed imperfectly conducting cylinder. An imperfectly conducting cylinder of unknown shape and conductivity scatters the incident transverse magnetic (TM) wave in free space while the scattered field is reco

## Abstract This article presents a computational approach to the imaging of a perfectly conducting cylinder buried in a slab. A conducting cylinder of unknown shape buried in a slab scatters the incident wave from outside. The scattered field is recorded outside the slab. Based on the boundary con

The genetic algorithm is used to reconstruct the shape what the initial estimate is [9]. In Section II, a theoretical formuof a perfectly conducting cylinder illuminated by transverse electric lation for the inverse scattering is presented. The general princi-(TE) waves. A cylinder of unknown shape

Image reconstruction by using near-field and far-field data for an imperfectly conducting cylinder is investigated. A conducting cylinder of unknown shape and conductivity scatters the incident wave in free space and the scattered near and far fields are measured. By using measured fields, the imagi