Evolving messy gates for fault tolerance: some preliminary findings

Created by W.Langdon from gp-bibliography.bib Revision:1.8010

@InProceedings{miller:2001:eh,

• author = "Julian F. Miller and Morten Hartmann",
• title = "Evolving messy gates for fault tolerance: some preliminary findings",
• booktitle = "The Third NASA/DoD workshop on Evolvable Hardware",
• year = "2001",
• editor = "Didier Keymeulen and Adrian Stoica and Jason Lohn and Ricardo S. Zebulum",
• pages = "116--123",
• address = "Long Beach, California",
• publisher_address = "1730 Massachusetts Avenue, N.W., Washington, DC, 20036-1992, USA",
• month = "12-14 " # jul,
• organisation = "Jet Propulsion Laboratory, California Institute of Technology",
• publisher = "IEEE Computer Society",
• keywords = "genetic algorithms, genetic programming",
• ISBN = "0-7695-1180-5",
• URL = "http://www.elec.york.ac.uk/intsys/users/jfm7/eh01.pdf",
• abstract = "We investigate a preliminary model of gate-like components with added random noise. We refer to these types of components as messy. The principal idea behind messy gates is that evolving circuits using messy gates may confer some beneficial properties, one being fault tolerance. The exploitation of the physical characteristics has already been demonstrated in intrinsic evolution of electronic circuits. This provided some of the inspiration for the work reported in this paper. Here we are trying to create a simulateable world in which {"}physical characteristics{"} can be exploited. We are also trying to study the question: What kind of components are most useful in an evolutionary design scenario?",
• notes = "EH2001 http://cism.jpl.nasa.gov/ehw/events/nasaeh01/",

}

Genetic Programming entries for Julian F Miller Morten Hartmann

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