Geometry Reconstruction of Conducting Cylinders Using Genetic Programming

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@Article{Wildman:2007:ieeeTAP,

• author = "Raymond A. Wildman and Daniel S. Weile",
• title = "Geometry Reconstruction of Conducting Cylinders Using Genetic Programming",
• journal = "IEEE Transactions on Antennas and Propagation",
• year = "2007",
• volume = "55",
• number = "3",
• pages = "629--636",
• month = mar,
• keywords = "genetic algorithms, genetic programming, Boolean functions, computational electromagnetics, computational geometry, conducting bodies, electromagnetic wave scattering, Boolean combination, conducting cylinder, encoding, geometry reconstruction, inverse scattering problem, tree-shaped chromosome, two-dimensional conductors",
• DOI = "doi:10.1109/TAP.2007.891565",
• ISSN = "0018-926X",
• abstract = "A genetic programming-based method for the imaging of two-dimensional conductors is presented. Geometry is encoded in this scheme using a tree-shaped chromosome to represent the Boolean combination of convex polygons into an arbitrary two-dimensional geometry. The polygons themselves are encoded as the convex hull of variable-length lists of points that reside in the terminal nodes of the tree. A set of genetic operators is defined for efficiently solving the inverse scattering problem. Specifically, the encoding scheme allows for a standard genetic programming crossover operator, and several mutation operators are designed in consideration of the encoding scheme. Several results are presented that demonstrate the method on a number of different shapes",

}

Genetic Programming entries for Raymond A Wildman Daniel S Weile

Citations