Evolutionary Learning in the 2D Artificial Life
System ``Avida''
C. Adami, and C. Brown. Artificial life IV, 1194, page 377--381. MIT Press, Cambridge, MA, (1994)cite arxiv:adap-org/9405003Comment: 5 p., postscript
with figures (unpack with uufiles), to appear in the
Proc. of ``Artificial Life IV'', MIT Press.
Abstract
We present a new tierra-inspired artificial life
system with local interactions and two-dimensional
geometry, based on an update mechanism akin to that of
2D cellular automata. We find that the spatial geometry
is conducive to the development of diversity and thus
improves adaptive capabilities. We also demonstrate the
adaptive strength of the system by breeding cells with
simple computational abilities, and study the
dependence of this adaptability on mutation rate and
population size.
Description
Evolutionary Learning in the 2D Artificial Life System
{"}Avida{"}
%0 Conference Paper
%1 adami-avida-1994
%A Adami, Chris
%A Brown, C. Titus
%B Artificial life IV
%D 1994
%I MIT Press, Cambridge, MA
%K alife avida
%P 377--381
%T Evolutionary Learning in the 2D Artificial Life
System ``Avida''
%U http://arxiv.org/abs/adap-org/9405003
%V 1194
%X We present a new tierra-inspired artificial life
system with local interactions and two-dimensional
geometry, based on an update mechanism akin to that of
2D cellular automata. We find that the spatial geometry
is conducive to the development of diversity and thus
improves adaptive capabilities. We also demonstrate the
adaptive strength of the system by breeding cells with
simple computational abilities, and study the
dependence of this adaptability on mutation rate and
population size.
@inproceedings{adami-avida-1994,
abstract = {We present a new tierra-inspired artificial life
system with local interactions and two-dimensional
geometry, based on an update mechanism akin to that of
2D cellular automata. We find that the spatial geometry
is conducive to the development of diversity and thus
improves adaptive capabilities. We also demonstrate the
adaptive strength of the system by breeding cells with
simple computational abilities, and study the
dependence of this adaptability on mutation rate and
population size.},
added-at = {2011-10-18T15:21:30.000+0200},
author = {Adami, Chris and Brown, C. Titus},
biburl = {https://www.bibsonomy.org/bibtex/23d9d2d6c66fdb8eeb828e6018856f317/mhwombat},
booktitle = {Artificial life IV},
description = {Evolutionary Learning in the 2D Artificial Life System
{"}Avida{"}},
interhash = {d9ce854b65d4af9b90efe006096dddba},
intrahash = {3d9d2d6c66fdb8eeb828e6018856f317},
keywords = {alife avida},
note = {cite arxiv:adap-org/9405003Comment: 5 p., postscript
with figures (unpack with uufiles), to appear in the
Proc. of ``Artificial Life IV'', MIT Press},
pages = {377--381},
publisher = {MIT Press, Cambridge, MA},
timestamp = {2016-07-12T19:25:30.000+0200},
title = {Evolutionary Learning in the 2{D} Artificial Life
System ``Avida''},
url = {http://arxiv.org/abs/adap-org/9405003},
volume = 1194,
year = 1994
}