Continuous models for peristaltic locomotion with application to worms and soft robots.

Journal: Biomechanics and modeling in mechanobiology

PMID: 32651774

Abstract

A continuous model for the peristaltic locomotion of compressible and incompressible rod-like bodies is presented. Using Green and Naghdi's theory of a directed rod, incompressibility is enforced as an internal constraint. A discussion on muscle actuation models for a single continuum is included. The resulting theory is demonstrated in a simulation of a soft-robotic device. In addition, a calibration of parameters is performed and the incompressible rod is validated against a biomimetic model of earthworm locomotion.

Authors

Evan G Hemingway

Department of Mechanical Engineering, University of California at Berkeley, Berkeley, CA, 94720-1740, USA.
Oliver M O'Reilly

Keywords

Animals Biomechanical Phenomena Biomimetics Computer Simulation Hydrostatic Pressure Locomotion Models, Biological Oligochaeta Peristalsis Reproducibility of Results Robotics

External Resources

View on PubMed Access via DOI PubMed (32651774)

Continuous models for peristaltic locomotion with application to worms and soft robots.

Abstract

Authors

Keywords

External Resources

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