Exploring the Analogy in the Emergent Properties of Locomotion Gaits of Snakebot Adapted to Challenging Terrain and Partial Damage
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- @Article{tanev:2006:ISCIE,
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author = "Ivan Tanev and Thomas Ray and Katsunori Shimohara",
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title = "Exploring the Analogy in the Emergent Properties of
Locomotion Gaits of Snakebot Adapted to Challenging
Terrain and Partial Damage",
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journal = "Transactions of the Institute of Systems, Control and
Information Engineers",
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year = "2006",
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volume = "19",
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number = "6",
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pages = "220--232",
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month = jun,
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address = "Japan",
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keywords = "genetic algorithms, genetic programming, emergence,
snakebot, evolution, adaptation",
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URL = "http://www.iscie.or.jp/e/?Transactions%20of%20ISCIE%2C%20Vol.%2019",
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DOI = "doi:10.5687/iscie.19.220",
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size = "13 pages",
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abstract = "The objective of this work is to investigate the
emergent properties of the gaits of the simulated
snake-like robot, Snakebot. The gaits are automatically
designed through Genetic Programming (GP) to be robust,
general, adaptive, and the fastest possible
sidewinding, locomotion. Considering the notion of
emergent intelligence as the ability of Snakebot to
achieve its goals (of moving fast) without the need to
be explicitly taught how to do so, we present empirical
results demonstrating the emergence of sidewinding
locomotion from relatively simple motion patterns of
morphological segments of Snakebot. We discuss the
emergent properties of the evolved robust high velocity
sidewinding locomotion gaits of Snakebot when situated
in challenging environments. Then we elaborate on the
ability of Snakebot to adapt to partial damage by
gradually improving its velocity characteristics, and
the emergent properties of obtained adaptive gaits.
Verifying the practical implications of the analogy
between the emergent properties of the robust and the
adaptive sidewinding gaits, this work could be viewed
as a step towards building real Snakebots, which are
able to perform robustly in challenging environments.",
- }
Genetic Programming entries for
Ivan T Tanev
Thomas S Ray
Katsunori Shimohara
Citations