An Evolutionary Methodology to Enhance Processor Software-Based Diagnosis

Created by W.Langdon from gp-bibliography.bib Revision:1.4216

  author =       "P. Bernardi and E. Sanchez and M. Schillaci and 
                 G. Squillero and M. {Sonza Reorda}",
  title =        "An Evolutionary Methodology to Enhance Processor
                 Software-Based Diagnosis",
  booktitle =    "Proceedings of the 2006 IEEE Congress on Evolutionary
  year =         "2006",
  editor =       "Gary G. Yen and Lipo Wang and Piero Bonissone and 
                 Simon M. Lucas",
  pages =        "3201--3206",
  address =      "Vancouver",
  month =        "6-21 " # jul,
  publisher =    "IEEE Press",
  keywords =     "genetic algorithms, genetic programming, microGP",
  ISBN =         "0-7803-9487-9",
  DOI =          "doi:10.1109/CEC.2006.1688401",
  size =         "6 pages",
  abstract =     "The widespread use of cheap processor cores requires
                 the ability to quickly point out the manufacturing
                 process criticalities in an effort to enhance the
                 production yield. Fault diagnosis is an integral part
                 of the industrial effort towards these goals. This
                 paper describes an innovative application of
                 evolutionary algorithms: iterative refinement of a
                 diagnostic test set. Several enhancements in the used
                 evolutionary core are additionally outlined,
                 highlighting their relevance for the specific problem.
                 Experimental results are reported in the paper showing
                 the effectiveness of the approach for a widely-known
                 microcontroller core.",
  notes =        "WCCI 2006 - A joint meeting of the IEEE, the EPS, and
                 the IEE.

                 IEEE Catalog Number: 06TH8846D IEEE Xplore gives pages
                 = {"}859--864{"},",

Genetic Programming entries for Paolo Bernardi Ernesto Sanchez Massimiliano Schillaci Giovanni Squillero Matteo Sonza Reorda