Finding Biologically Plausible Complex Network Topologies with a New Evolutionary Approach for Network Generation

Finding Biologically Plausible Complex Network Topologies with a New Evolutionary Approach for Network Generation. Govan, G., Chlanda, J., Corne, D., Xenos, A., & Frisco, P. In Emmerich, M., Deutz, A., Schütze, O., Bäck, T., Tantar, E., Tantar, A., del Moral, P., Legrand, P., Bouvry, P., & Coello Coello, C., editors, EVOLVE - A Bridge between Probability, Set Oriented Numerics, and Evolutionary Computation IV, pages 59--73. Springer, Advances in Intelligent Systems and Computing Vol. 227, Heidelberg, Germany, July 10-13, 2013. ISBN 978-3-319-01127-7
bibtex

@incollection{Govan13,
  author = {Gordon Govan and Jakub Chlanda and David Corne and Alex Xenos and Pierluigi Frisco},
  title = {{Finding Biologically Plausible Complex Network Topologies with a New Evolutionary Approach for Network Generation}},
  booktitle = {EVOLVE - A Bridge between Probability, Set Oriented Numerics, and Evolutionary Computation IV},
  editor = {Michael Emmerich and Andr\'{e} Deutz and Oliver Sch\"{u}tze and Thomas B\"{a}ck and Emilia Tantar 
  and Alexandru-Adrian Tantar and Pierre del Moral and Pierrick Legrand and Pascal Bouvry and Carlos {Coello Coello}},
  pages = {59--73},
  publisher = {Springer, Advances in Intelligent Systems and Computing Vol. 227},
  address = {Heidelberg, Germany},
  month = {July 10-13},
  year = {2013},
  note = {ISBN 978-3-319-01127-7}
}

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