Synthesis of topology and sizing of analog electrical circuits by means of genetic programming

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@Article{Koza:2000:CMAME,

• author = "John R. Koza and Forrest H {Bennett III} and David Andre and Martin A. Keane",
• title = "Synthesis of topology and sizing of analog electrical circuits by means of genetic programming",
• journal = "Computer Methods in Applied Mechanics and Engineering",
• volume = "186",
• pages = "459--482",
• year = "2000",
• number = "2-4",
• month = jun,
• email = "john@johnkoza.com",
• keywords = "genetic algorithms, genetic programming",
• URL = "http://www.genetic-programming.com/jkpdf/cmame.pdf",
• URL = "http://www.sciencedirect.com/science/article/B6V29-40CRYKF-M/1/5360f0a76976701c046d5032c98fdcee",
• ISSN = "0045-7825",
• DOI = "doi:10.1016/S0045-7825(99)00397-7",
• size = "34 pages",
• abstract = "The design (synthesis) of an analog electrical circuit entails the creation of both the topology and sizing (numerical values) of all of the circuit's components. There has previously been no general automated technique for automatically creating the design for an analog electrical circuit from a high-level statement of the circuit's desired behavior. This paper shows how genetic programming can be used to automate the design of eight prototypical analog circuits, including a lowpass filter, a highpass filter, a bandstop filter, a tri-state frequency discriminator circuit, a frequency-measuring circuit, a 60 dB amplifier, a computational circuit for the square root function, and a time-optimal robot controller circuit.",

}

Genetic Programming entries for John Koza Forrest Bennett David Andre Martin A Keane

Citations