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Soft foam robot with caterpillar-inspired gait regimes for terrestrial locomotion

Cassandra M. Donatelli, Zachary Serlin, Piers M. Echols-Jones, Anthony E. Scibelli, Alexandra R. Cohen, Jeanne-Marie Musca, Shane Rozen-Levy, David Buckingham, Robert D. White, Barry A. Trimmer

Year
2017
Citations
16

Abstract

Caterpillars are the soft bodied larvae of lepidopteran insects. They have evolved to occupy an extremely diverse range of natural environments and to locomote in complex three-dimensional structures without articulated joint or hydrostatic control. These animals make excellent bio-inspiration for the field of soft robotics because of their diversity and adaptability. In this paper, we present SquMA Bot, a caterpillar-inspired soft robot. The robot's body is primarily composed of a soft viscoelastic foam, and it is actuated using a motor-tendon system. SquMA Bot is able to mimic the inching gait of a caterpillar and can use its flexible body to adapt to a range of environments. This bio-inspired prototype demonstrates the effectiveness of a soft robot as a potential tool for exploring environments too dangerous for humans.

Keywords

GaitRobotComputer scienceRobot locomotionGait analysisMobile robotPhysical medicine and rehabilitationArtificial intelligenceRobot controlMedicine

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