Add to ORKGThis paper deals with inverse scattering techniques based on genetic algorithms (GAs), and is devoted to microwave imaging and microwave nondestructive testing and evaluation (NDT/NDE). In the framework of near-field spatial-domain algorithms, a brief overview of current trends and future developments of the research work is given. Numerical results of selected simulations, modeling realistic geometries, are presented in order to assess the effectiveness of the proposed optimization methodology. Finally, a discussion fixes some guidelines and points out the open problems to be addressed in order to enlarge the application area of GA-based inverse scattering techniques
Stochastic searching algorithms such as the Genetic Algorithms (GA's) are commonly used for shape op...
[[abstract]]Inverse scattering of an imperfectly conducting cylinder buried in a half-space is prese...
[[abstract]]Electromagnetic imaging of buried multiple conductors by using genetic algorithm has bee...
This paper deals with inverse scattering techniques based on genetic algorithms (GAs), and is devote...
Industrial and biomedical applications of microwave imaging techniques based on inverse scattering i...
Two versions of a hybrid genetic algorithm are proposed for the solution of the inverse scattering p...
This paper presents an innovative microwave technique, which is suitable for the detection of defect...
In the framework of NDE/NDT, this paper presents a new microwave diagnostic tool. The approach, deve...
[[abstract]]The genetic algorithm is used to reconstruct the shapes of two perfectly conducting cyli...
This paper describes a new microwave diagnostic tool for nondestructive evaluation. The approach, de...
The computationally-efficient solution of fully non-linear microwave inverse scattering problems (IS...
An electromagnetic (EM) inverse scattering problem that involves the reconstruction of microwave ima...
In the framework of NDE/NDT, this paper presents an innovative microwave diagnostic approach based o...
This paper presents an efficient and reliable inversion methodology for microwave imaging based on a...
Microwave medical imaging: Potentialities and limitations of a stochastic optimization technique Au...
Stochastic searching algorithms such as the Genetic Algorithms (GA's) are commonly used for shape op...
[[abstract]]Inverse scattering of an imperfectly conducting cylinder buried in a half-space is prese...
[[abstract]]Electromagnetic imaging of buried multiple conductors by using genetic algorithm has bee...
This paper deals with inverse scattering techniques based on genetic algorithms (GAs), and is devote...
Industrial and biomedical applications of microwave imaging techniques based on inverse scattering i...
Two versions of a hybrid genetic algorithm are proposed for the solution of the inverse scattering p...
This paper presents an innovative microwave technique, which is suitable for the detection of defect...
In the framework of NDE/NDT, this paper presents a new microwave diagnostic tool. The approach, deve...
[[abstract]]The genetic algorithm is used to reconstruct the shapes of two perfectly conducting cyli...
This paper describes a new microwave diagnostic tool for nondestructive evaluation. The approach, de...
The computationally-efficient solution of fully non-linear microwave inverse scattering problems (IS...
An electromagnetic (EM) inverse scattering problem that involves the reconstruction of microwave ima...
In the framework of NDE/NDT, this paper presents an innovative microwave diagnostic approach based o...
This paper presents an efficient and reliable inversion methodology for microwave imaging based on a...
Microwave medical imaging: Potentialities and limitations of a stochastic optimization technique Au...
Stochastic searching algorithms such as the Genetic Algorithms (GA's) are commonly used for shape op...
[[abstract]]Inverse scattering of an imperfectly conducting cylinder buried in a half-space is prese...
[[abstract]]Electromagnetic imaging of buried multiple conductors by using genetic algorithm has bee...