---
abstract: |-
  Much research has been dedicated recently to applying genetic algorithms to populations of
  neural networks. However, while in real organisms the inherited genotype maps in complex
  ways into the resulting phenotype, in most of this research the development process that
  creates the individual phenotype is ignored. In this paper we present a model of neural
  development which includes cell division and cell migration in addition to axonal growth and
  branching. This reflects, in a very simplified way, what happens in the ontogeny of real
  organisms. The development process of our artificial organisms shows successive phases of
  functional differentiation and specialization. In addition, we find that mutations that affect
  different phases of development have very different evolutionary consequences. A single
  change in the early stages of cell division/migration can have huge effects on the phenotype
  while changes in later stages have usually a less drammatic impact. Sometimes changes that
  affect the first developental stages may be retained producing sudden changes in evolutionary
  history.
altloc: []
chapter: ~
commentary: ~
commref: ~
confdates: ~
conference: ~
confloc: ~
contact_email: ~
creators_id: []
creators_name:
  - family: Cangelosi
    given: Angelo
    honourific: ''
    lineage: ''
  - family: Parisi
    given: Domenico
    honourific: ''
    lineage: ''
  - family: Nolfi
    given: Stefano
    honourific: ''
    lineage: ''
date: 1994
date_type: published
datestamp: 2002-01-11
department: ~
dir: disk0/00/00/20/25
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editors_id: []
editors_name: []
eprint_status: archive
eprintid: 2025
fileinfo: /style/images/fileicons/application_pdf.png;/2025/3/cangelosi%2Dmigration%2Dncns94.pdf
full_text_status: public
importid: ~
institution: ~
isbn: ~
ispublished: pub
issn: ~
item_issues_comment: []
item_issues_count: 0
item_issues_description: []
item_issues_id: []
item_issues_reported_by: []
item_issues_resolved_by: []
item_issues_status: []
item_issues_timestamp: []
item_issues_type: []
keywords: 'neural networks, artificial life, genotype-phenotype mapping, modularity, neural development'
lastmod: 2011-03-11 08:54:52
latitude: ~
longitude: ~
metadata_visibility: show
note: ~
number: 4
pagerange: ~
pubdom: FALSE
publication: 'Network: Computation in Neural Systems'
publisher: ~
refereed: TRUE
referencetext: |-
  Belew R K 1993 Interposing an ontogenetic model between genetic algorithms and neural
  networks Advances in Neural Information Processing (NIPS5) ed J Cowan (San
  Mateo, CA: Morgan Kaufmann)
  Cecconi F and Parisi D 1993 Neural networks with motivational units From Animals to
  Animats 2: Proceedings Second Intl. Conf. on Simulation of Adaptive Behavior eds J
  Meyer H L Roitblat and S W Wilson (Cambridge, MA: MIT Press, Bradford Books)
  Dawkins R 1986 The Blind Watchmaker (New York: Norton & Cooper)
  Eigen M 1993 Viral quasispecies Scientific American 269 32-39
  Gould S J 1991 Exaptation: a crucial tool for an evolutionary psychology Journal of Social
  Issues 3 43-65
  Gruau F 1993 Genetic synthesis of modular neural networks Proceedings Fifth Intl. Conf. on
  Genetic Algorithms(San Mateo, CA: Morgan Kaufmann)
  Gruau F 1994 Genetic Micro Programming of Neural Networks Advances in Genetic
  Programming ed K E Kinnear (Cambridge, MA: MIT Press, Bradford Books)
  Harp S, Samad T and Guha A 1989 Toward the genetic synthesis of neural networks
  Proceedings Third Intl. Conf. on Genetic Algorithms (San Mateo, CA: Morgan
  Kaufmann)
  Kitano H 1990. Designing neural networks using genetic algorithms with graph generation
  system Complex Systems 4 461-476.
  Langton C G 1992 Artificial Life Lectures in Complex Systems eds L Nadel and D Stein
  (Reading, MA: Addison Wesley)
  Lindenmayer A and Rozenberg G 1976 Automata, Languages, Development (North-Holland,
  Amsterdam)
  Miglino O, Nolfi S and Parisi D in press Discontinuity in evolution: how different levels of
  organization imply pre-adaptation Plastic Individuals in Evolving Populations eds R K
  Belew and M Mitchell (Reading, MA: Addison-Wesley, SFI Series)
  Miller G F, Todd P M and Hedge S U 1989 Designing neural networks using genetic
  algorithms Proceedings Third Intl. Conf. on Genetic Algorithms (San Mateo, CA:
  Morgan Kaufmann)
  Nolfi S and Parisi D 1992 Growing Neural Networks Technical Report (Institute of
  Psychology, CNR Rome)
  Nolfi S and Parisi D in press Genotypes for neural networks The Handbook of Brain Theory
  and Neural Networks ed M A Arbib (Cambridge, MA: MIT Press, Bradford Books)
  Parisi D, Cecconi F and Nolfi S 1990 Econets: neural networks that learn in an environment
  Network 1 149-168.
  Purves D and Lichtheim J W 1985 Principles of Neural Development (Sunderland, MA:
  Sinauer Ass.)
  Schacher S 1985 Determination and differentiation in neural system development Principles
  of Neurosciences eds E R Kandel and J H Schwartz (New York: Esevier Science)
  Wilson S W 1987 The genetic algorithm and biological development Proceedings Second
  Intl. Conf. on Genetic Algorithms. (Hillsdale, NJ: Erlbaum)
  Yao X 1993 Evolutionary artificial neural networks International Journal of Neural Systems 4
  203-222
relation_type: []
relation_uri: []
reportno: ~
rev_number: 12
series: ~
source: ~
status_changed: 2007-09-12 16:42:31
subjects:
  - bio-evo
  - comp-neuro-sci
  - comp-sci-art-intel
  - comp-sci-neural-nets
  - evol-psy
succeeds: ~
suggestions: ~
sword_depositor: ~
sword_slug: ~
thesistype: ~
title: Cell division and migration in a 'genotype' for neural networks
type: journale
userid: 24
volume: 5
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