Artificial Biochemical Networks: Evolving Dynamical Systems to Control Dynamical Systems
Created by W.Langdon from
gp-bibliography.bib Revision:1.8120
- @Article{Lones:2013:ieeeTEC,
-
author = "Michael A. Lones and Luis A. Fuente and
Alexander P. Turner and Leo S. D. Caves and Susan Stepney and
Stephen L. Smith and Andy M. Tyrrell",
-
journal = "IEEE Transactions on Evolutionary Computation",
-
title = "Artificial Biochemical Networks: Evolving Dynamical
Systems to Control Dynamical Systems",
-
year = "2014",
-
volume = "18",
-
number = "2",
-
pages = "145--166",
-
month = apr,
-
keywords = "genetic algorithms, genetic programming, Biochemical
networks, Chaos control, Dynamical systems,
Evolutionary robotics",
-
ISSN = "1089-778X",
-
DOI = "doi:10.1109/TEVC.2013.2243732",
-
size = "22 pages",
-
abstract = "Biological organisms exist within environments in
which complex, non-linear dynamics are ubiquitous. They
are coupled to these environments via their own
complex, dynamical networks of enzyme-mediated
reactions, known as biochemical networks. These
networks, in turn, control the growth and behaviour of
an organism within its environment. In this paper, we
consider computational models whose structure and
function are motivated by the organisation of
biochemical networks. We refer to these as artificial
biochemical networks, and show how they can be evolved
to control trajectories within three behaviourally
diverse complex dynamical systems: the Lorenz system,
Chirikovs standard map, and legged robot locomotion.
More generally, we consider the notion of evolving
dynamical systems to control dynamical systems, and
discuss the advantages and disadvantages of using
higher order coupling and configurable dynamical
modules (in the form of discrete maps) within
artificial biochemical networks. We find both
approaches to be advantageous in certain situations,
though note that the relative trade-offs between
different models of artificial biochemical network
strongly depend on the type of dynamical systems being
controlled.",
-
notes = "Also known as \cite{6423886}",
- }
Genetic Programming entries for
Michael A Lones
Luis A Fuente
Alexander P Turner
Leo Caves
Susan Stepney
Stephen L Smith
Andrew M Tyrrell
Citations