Evolving Robots: from Simple Behaviours to Complete Systems
Created by W.Langdon from
gp-bibliography.bib Revision:1.8120
- @PhdThesis{Wei-PoLee:thesis,
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author = "Wei-Po Lee",
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title = "Evolving Robots: from Simple Behaviours to Complete
Systems",
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school = "Department of Artificial Intelligence. University of
Edinburgh",
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year = "1997",
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address = "UK",
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keywords = "genetic algorithms, genetic programming",
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URL = "http://books.google.co.uk/books/about/Evolving_robots.html?id=uIkKcgAACAAJ&redir_esc=y",
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URL = "http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.653764",
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abstract = "Building robots is generally considered difficult,
because the designer not only has to predict the
interaction between the robot and the environment, but
also to deal with ensuing problems. This thesis
examines the use of the evolutionary approach in
designing robots; the explorations range from evolving
simple behaviours for real robots, to complex
behaviours (also for real robots), and finally to the
complete robot systems - including controllers and body
plans. A framework is presented for evolving robot
control systems. It includes two components: a task
independent Genetic Programming sub-system and a task
dependent controller evaluation sub-system. The
performance evaluation of each robot controller is done
in a simulator to reduce the evaluation time, and then
the evolved controllers are downloaded to a real robot
for performance verification. In addition, a special
representation is designed for the reactive robot
controller. It is succinct and can capture well the
characteristics of a reactive control system, so that
the evolutionary system can efficiently evolve the
controllers of the desired behaviours for the robots.
The framework has been used to evolve controllers for
real robots to achieve a variety of simple tasks
successfully, such as obstacle avoidance, safe
exploration and box-pushing. A methodology is then
proposed to scale up the system to evolve controllers
for more complicated tasks. It involves adopting the
architecture of a behaviour-based system, and evolving
separate behaviour controllers and arbitrators for
coordination. This allows robot controllers for more
complex skills to be constructed in an incremental
manner. Therefore the whole control system becomes easy
to evolve; moreover, the resulting control system can
be explicitly distributed, understandable to the system
designer, and easy to maintain. The methodology has
been used to evolve control systems for more complex
tasks with good results",
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notes = "OCLC Number: 607678835",
- }
Genetic Programming entries for
Wei-Po Lee
Citations