Self-replicating machines in continuous space with virtual physics

Download
  1. (PDF, 575 KB)
  2. Get@NRC: Self-replicating machines in continuous space with virtual physics (Opens in a new window)
DOIResolve DOI: http://doi.org/10.1162/106454603321489509
AuthorSearch for: ; Search for: ; Search for:
TypeArticle
Journal titleArtificial Life
Volume9
Issue1
Pages2140; # of pages: 20
Subjectself-replication; mobile automata; virtual physics; nanotechnology; continuous space automata; spontaneous self-replication; seeded self-replication
AbstractJohnnyVon is an implementation of self-replicating machines in continuous twodimensional space. Two types of particles drift about in a virtual liquid. The particles are automata with discrete internal states but continuous external relationships. Their internal states are governed by finite state machines but their external relationships are governed by a simulated physics that includes brownian motion, viscosity, and springlike attractive and repulsive forces. The particles can be assembled into patterns that can encode arbitrary strings of bits. We demonstrate that, if an arbitrary 'seed' pattern is put in a 'soup' of separate individual particles, the pattern will replicate by assembling the individual particles into copies of itself. We also show that, given sufficient time, a soup of separate individual particles will eventually spontaneously form self-replicating patterns. We discuss the implications of JohnnyVon for research in nanotechnology, theoretical biology, and artificial life.
Publication date
LanguageEnglish
AffiliationNational Research Council Canada; NRC Institute for Information Technology
Peer reviewedNo
NRC number44969
NPARC number3540016
Export citationExport as RIS
Report a correctionReport a correction
Record identifierf6416c57-7a4f-43cb-a7dc-26578f99e9e3
Record created2009-03-01
Record modified2016-05-09
Bookmark and share
  • Share this page with Facebook (Opens in a new window)
  • Share this page with Twitter (Opens in a new window)
  • Share this page with Google+ (Opens in a new window)
  • Share this page with Delicious (Opens in a new window)