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Remote Guidance of Untrained Turtles by Controlling Voluntary Instinct Behavior

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  • Serin Lee
  • Cheol-Hu Kim
  • Dae-Gun Kim
  • Han-Guen Kim
  • Phill-Seung Lee
  • Hyun Myung

Abstract

Recently, several studies have been carried out on the direct control of behavior in insects and other lower animals in order to apply these behaviors to the performance of specialized tasks in an attempt to find more efficient means of carrying out these tasks than artificial intelligence agents. While most of the current methods cause involuntary behavior in animals by electronically stimulating the corresponding brain area or muscle, we show that, in turtles, it is also possible to control certain types of behavior, such as movement trajectory, by evoking an appropriate voluntary instinctive behavior. We have found that causing a particular behavior, such as obstacle avoidance, by providing a specific visual stimulus results in effective control of the turtle's movement. We propose that this principle may be adapted and expanded into a general framework to control any animal behavior as an alternative to robotic probes.

Suggested Citation

  • Serin Lee & Cheol-Hu Kim & Dae-Gun Kim & Han-Guen Kim & Phill-Seung Lee & Hyun Myung, 2013. "Remote Guidance of Untrained Turtles by Controlling Voluntary Instinct Behavior," PLOS ONE, Public Library of Science, vol. 8(4), pages 1-7, April.
    • Handle: RePEc:plo:pone00:0061798
    DOI: 10.1371/journal.pone.0061798
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    References listed on IDEAS

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    1. Sanjiv K. Talwar & Shaohua Xu & Emerson S. Hawley & Shennan A. Weiss & Karen A. Moxon & John K. Chapin, 2002. "Rat navigation guided by remote control," Nature, Nature, vol. 417(6884), pages 37-38, May.
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