International Journal of Control, Automation, and Systems
Published online September 4, 2024
https://doi.org/10.1007/s12555-023-0424-5
© The International Journal of Control, Automation, and Systems
This paper introduces a new dynamical model for a continuous snake-like robot and a controller yielding slithering motion on a smooth curved surface. Smooth curve models are common tools in studies on snake-like robots, however, the application of those models is limited to cases without sideslips. Our new model can deal with locomotion with sideslips on curved surfaces. Moreover, the numerical simulation of climbing up the surface of a cylinder based on our model reveals the important role of the tangential friction of the body, which was underestimated by previous studies. The result illuminates the trade-off relation between the energy efficiency and the reachability of the snake-like robots.
Keywords Control, distributed parameter model, locomotion on manifold, snake-like robot.
International Journal of Control, Automation, and Systems -0001; ():
Published online November 30, -0001 https://doi.org/10.1007/s12555-023-0424-5
Copyright © The International Journal of Control, Automation, and Systems.
Koki Harada, Ryo Ariizumi*, Toru Asai, and Shun-ichi Azuma
This paper introduces a new dynamical model for a continuous snake-like robot and a controller yielding slithering motion on a smooth curved surface. Smooth curve models are common tools in studies on snake-like robots, however, the application of those models is limited to cases without sideslips. Our new model can deal with locomotion with sideslips on curved surfaces. Moreover, the numerical simulation of climbing up the surface of a cylinder based on our model reveals the important role of the tangential friction of the body, which was underestimated by previous studies. The result illuminates the trade-off relation between the energy efficiency and the reachability of the snake-like robots.
Keywords: Control, distributed parameter model, locomotion on manifold, snake-like robot.
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