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Browse Journals & Magazines > Robotics and Automation, IEEE ...> Volume:8 Issue:3 Help

Robustness of a distributed neural network controller for locomotion in a hexapod robot

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4 Author(s)
Chiel, H.J. ; Case Western Reserve Univ., Cleveland, OH, USA ; Beer, R.D. ; Quinn, R.D. ; Espenschied, K.

The robustness of a distributed neural-network controller for locomotion based on insect neurobiology has been used to control a hexapod robot. The robustness of the controller is investigated experimentally. Disabling any single sensor, effector, or central component did not prevent the robot from walking. Furthermore, statically stable gaits could be established using either sensor input or central connections. Thus, a complex interplay between central neural elements and sensor inputs is responsible for the robustness of the controller and its ability to generate a continuous range of gaits. These results suggest that biologically inspired neural-network controllers may be a robust method for robotic control

Published in:
Robotics and Automation, IEEE Transactions on  (Volume:8 ,  Issue: 3 )

Date of Publication: Jun 1992

Page(s):
293 - 303
ISSN :
1042-296X
INSPEC Accession Number:
4228146
Digital Object Identifier :
10.1109/70.143348
Product Type:
Journals & Magazines
Date of Current Version :
06 August 2002
Issue Date :
Jun 1992
Sponsored by :
IEEE Robotics and Automation Society

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