[[abstract]]The application of two techniques to reconstruct the shape of a two-dimensional periodic perfect conductor from mimic the measurement data is presented. A periodic conducting cylinder of unknown periodic length and shape scatters the incident wave in half-space and the scattered field is recorded outside. After an integral formulation, the microwave imaging is recast as a nonlinear optimization problem; a cost functional is defined by the norm of a difference between the measured scattered electric fields and the calculated scattered fields for an estimated shape of a conductor. Thus, the shape of conductor can be obtained by minimizing the cost function. In order to solve this inverse scattering problem, transverse magnetic (TM...
[[abstract]]A microwave imaging technique based on particle swarm optimization (PSO) and asynchronou...
[[abstract]]This paper presents the studies of time domain inverse scattering for a metallic cylinde...
[[abstract]]We consider the inverse problem of determining both the shape and the conductivity of a ...
[[abstract]]The application of two techniques for the of shape reconstruction of a perfectly two-dim...
[[abstract]]This article presents an inverse scattering problem for recovering the shape and conduct...
[[abstract]]The application of four techniques for the shape reconstruction of a 2-D metallic cylind...
[[abstract]]The inverse problem under consideration is to reconstruct the characteristic of scattere...
[[abstract]]The application of optimization techniques for shape reconstruction of a perfectly condu...
[[abstract]]This paper reports a two dimensional time domain inverse scattering algorithm based upon...
[[abstract]]The application of one technique for the reconstruction of shape reconstruction of a met...
[[abstract]]The image reconstruction of a two-dimensional periodic conductor by the genetic algorith...
[[abstract]]The application of two techniques for the reconstruction of shape reconstruction of a me...
[[abstract]]The application of four techniques for the shape reconstruction of a metallic cylinder b...
[[abstract]]Two techniques for the shape reconstruction of multiple metallic cylinders from scattere...
[[abstract]]In this paper, the shape reconstruction of a perfectly conducting cylinder buried in a h...
[[abstract]]A microwave imaging technique based on particle swarm optimization (PSO) and asynchronou...
[[abstract]]This paper presents the studies of time domain inverse scattering for a metallic cylinde...
[[abstract]]We consider the inverse problem of determining both the shape and the conductivity of a ...
[[abstract]]The application of two techniques for the of shape reconstruction of a perfectly two-dim...
[[abstract]]This article presents an inverse scattering problem for recovering the shape and conduct...
[[abstract]]The application of four techniques for the shape reconstruction of a 2-D metallic cylind...
[[abstract]]The inverse problem under consideration is to reconstruct the characteristic of scattere...
[[abstract]]The application of optimization techniques for shape reconstruction of a perfectly condu...
[[abstract]]This paper reports a two dimensional time domain inverse scattering algorithm based upon...
[[abstract]]The application of one technique for the reconstruction of shape reconstruction of a met...
[[abstract]]The image reconstruction of a two-dimensional periodic conductor by the genetic algorith...
[[abstract]]The application of two techniques for the reconstruction of shape reconstruction of a me...
[[abstract]]The application of four techniques for the shape reconstruction of a metallic cylinder b...
[[abstract]]Two techniques for the shape reconstruction of multiple metallic cylinders from scattere...
[[abstract]]In this paper, the shape reconstruction of a perfectly conducting cylinder buried in a h...
[[abstract]]A microwave imaging technique based on particle swarm optimization (PSO) and asynchronou...
[[abstract]]This paper presents the studies of time domain inverse scattering for a metallic cylinde...
[[abstract]]We consider the inverse problem of determining both the shape and the conductivity of a ...