Genetically induced communication network fault tolerance

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@Article{1005412,
  author =       "Stephen F. Bush",
  title =        "Genetically induced communication network fault
                 tolerance",
  journal =      "Complexity",
  volume =       "9",
  number =       "2",
  year =         "2003",
  ISSN =         "1076-2787",
  pages =        "19--33",
  DOI =          "doi:10.1002/cplx.20002",
  publisher =    "John Wiley \& Sons, Inc.",
  keywords =     "genetic algorithms, genetic programming, active
                 networks, algorithmic information theory, Kolmogorov
                 complexity, complexity theory, self-healing networks",
  URL =          "http://www.crd.ge.com/~bushsf/pdfpapers/ComplexityJournal.pdf",
  abstract =     "This article presents the architecture and initial
                 feasibility results of a proto-type communication
                 network that uses genetic programming to evolve
                 services and protocols as part of network operation.
                 The network evolves responses to environmental
                 conditions in a manner that could not be pre-programmed
                 within legacy network nodes a priori. A priori in this
                 case means before network operation has begun. Genetic
                 material is exchanged, loaded, and run dynamically
                 within an active network. The transfer and execution of
                 code in support of the evolution of network protocols
                 and services would not be possible without the active
                 network environment. Rapid generation of network
                 service code occurs via a genetic programming paradigm.
                 Complexity and algorithmic information theory play a
                 key role in understanding and guiding code evolution
                 within the network.",
}

Genetic Programming entries for Stephen F Bush

Citations