Evolving reliable and robust controllers for real robots by genetic programming
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- @Article{lee:1999:SC,
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author = "Wei-Po Lee and John Hallam",
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title = "Evolving reliable and robust controllers for real
robots by genetic programming",
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journal = "Soft Computing -- A Fusion of Foundations,
Methodologies and Applications",
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year = "1999",
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volume = "3",
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number = "2",
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pages = "63--75",
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month = sep,
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keywords = "genetic algorithms, genetic programming",
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ISSN = "1432-7643",
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DOI = "doi:10.1007/s005000050054",
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abstract = "Using Genetic Programming (GP)-based approaches to
evolve robot controllers has the advantage of operating
variable-size genotype. This is an important feature
for evolving robot control systems as it allows
complete freedom for the control architecture in
respect to the task complexity which is difficult to
predict. However, GP-based work in evolving controllers
has been questioned in the verification of the
performance on real robots, the generalisation of
defining primitives, and the computational cost needed.
In this paper, we present our GP framework in which a
special representation of the robot controller is
designed; this representation can capture well the
characteristic of a behaviour controller so that our
system can efficiently evolve desired robot behaviours
by a relatively low computational cost. This system has
been successfully used to evolve reliable and robust
controllers working on a real robot, for a variety of
tasks.",
- }
Genetic Programming entries for
Wei-Po Lee
John Hallam
Citations