Stability and task complexity: a neural network model of genetic assimilation
Stability and task complexity: a neural network model of genetic assimilation
Since Hinton and Nowlan introduced the Baldwin effect to the evolutionary computation community, agent-based studies of genetic assimilation have uncovered many details of the dynamic processes involved. In a previous paper, we demonstrated genetic assimilation with a simple food/toxin discrimination task using neural network agents that could evolve their learning rate. The study reported in this paper investigated the genetic assimilation of more complex learning tasks. Kauffman's NK landscape model, which can generate landscapes with a variable degree of correlation, was used to define learning tasks of varying levels of complexity. Simulations indicate an increased tendency of genetic assimilation to occur as the complexity of the learning task decreases and the environmental stability increases. These results are explained in terms of the shifting balance between the evolutionary costs and benefits of learning.
baldwin effect, neural network, learning, genetic assimilation, NK landscape
0-262-69281-3
153
Watson, J
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Geard, N
19c3888b-1e2d-4ee5-bcc6-d14c683d0be6
Wiles, J
4b566453-d3c4-441a-97bd-404c378d1f67
2002
Watson, J
b980aa6b-8b23-41f0-879c-3b6fc20e8d71
Geard, N
19c3888b-1e2d-4ee5-bcc6-d14c683d0be6
Wiles, J
4b566453-d3c4-441a-97bd-404c378d1f67
Watson, J, Geard, N and Wiles, J
(2002)
Stability and task complexity: a neural network model of genetic assimilation.
Standish, R, Bedau, M and Abbass, H
(eds.)
In Artificial Life VIII: Proceedings of the Eighth International Conference on Artificial Life.
MIT Press.
.
Record type:
Conference or Workshop Item
(Paper)
Abstract
Since Hinton and Nowlan introduced the Baldwin effect to the evolutionary computation community, agent-based studies of genetic assimilation have uncovered many details of the dynamic processes involved. In a previous paper, we demonstrated genetic assimilation with a simple food/toxin discrimination task using neural network agents that could evolve their learning rate. The study reported in this paper investigated the genetic assimilation of more complex learning tasks. Kauffman's NK landscape model, which can generate landscapes with a variable degree of correlation, was used to define learning tasks of varying levels of complexity. Simulations indicate an increased tendency of genetic assimilation to occur as the complexity of the learning task decreases and the environmental stability increases. These results are explained in terms of the shifting balance between the evolutionary costs and benefits of learning.
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alife8-stability.pdf
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Published date: 2002
Venue - Dates:
The Eighth International Conference on Artificial Life (Artificial Life VIII), Sydney, Australia, 2002-01-01
Keywords:
baldwin effect, neural network, learning, genetic assimilation, NK landscape
Organisations:
Electronics & Computer Science
Identifiers
Local EPrints ID: 264207
URI: http://eprints.soton.ac.uk/id/eprint/264207
ISBN: 0-262-69281-3
PURE UUID: 104f6a05-b40b-41d2-a2f2-81640bf1845e
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Date deposited: 19 Jun 2007
Last modified: 14 Mar 2024 07:44
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Contributors
Author:
J Watson
Author:
N Geard
Author:
J Wiles
Editor:
R Standish
Editor:
M Bedau
Editor:
H Abbass
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