Synthesizing passive networks by applying genetic programming and evolution strategies

Created by W.Langdon from gp-bibliography.bib Revision:1.3872

@InProceedings{reinhold:2003:spnbagpaes,
  author =       "Christian Reinhold and Peter Kralicek and 
                 Juergen Teich",
  title =        "Synthesizing passive networks by applying genetic
                 programming and evolution strategies",
  booktitle =    "Proceedings of the 2003 Congress on Evolutionary
                 Computation CEC2003",
  editor =       "Ruhul Sarker and Robert Reynolds and 
                 Hussein Abbass and Kay Chen Tan and Bob McKay and Daryl Essam and 
                 Tom Gedeon",
  pages =        "1740--1747",
  year =         "2003",
  publisher =    "IEEE Press",
  address =      "Canberra",
  publisher_address = "445 Hoes Lane, P.O. Box 1331, Piscataway, NJ
                 08855-1331, USA",
  month =        "8-12 " # dec,
  organisation = "IEEE Neural Network Council (NNC), Engineers Australia
                 (IEAust), Evolutionary Programming Society (EPS),
                 Institution of Electrical Engineers (IEE)",
  keywords =     "genetic algorithms, genetic programming, Circuit
                 synthesis, Equivalent circuits, Microwave measurements,
                 Network synthesis, Passive networks, Radio frequency,
                 SPICE, Scattering parameters, Software tools,
                 S-parameters, equivalent circuits, network synthesis,
                 passive networks, EM field calculation, RF engineering,
                 SPICE, equivalent circuits, evolutionary algorithms,
                 microelectronic systems, microwave engineering, passive
                 equivalent networks, scattering parameters, software
                 tools",
  ISBN =         "0-7803-7804-0",
  DOI =          "doi:10.1109/CEC.2003.1299883",
  abstract =     "In order to accurately predict the behaviour of
                 micro-electronic systems with nodal based software
                 tools like SPICE it is necessary to know appropriate
                 equivalent circuits of the systems of interest. In
                 microwave and RF engineering this equivalent networks
                 often have to be derived form measurement or EM field
                 calculation via scattering parameters. In this
                 contribution a methodology is suggested that combines
                 Evolutionary Algorithms (EAs) with a nodal based
                 assembly technique in order to synthesise passive
                 equivalent networks. Using only the knowledge of the
                 scattering parameters, both structure and component
                 values of an equivalent circuit of a system are
                 determined by EA.",
  notes =        "CEC 2003 - A joint meeting of the IEEE, the IEAust,
                 the EPS, and the IEE.",
}

Genetic Programming entries for Christian Reinhold Peter Kralicek Jurgen Teich

Citations