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Design, fabrication and experimental analysis of a 3-D soft robotic snake

Yun Qin, Zhenyu Wan, Yinan Sun, Erik H. Skorina, Ming Luo, Çağdaş D. Önal

Year
2018
Citations
26

Abstract

Snake robots are an emerging approach for navigating complicated and constrained environments. While existing snake robots rely on traditional articulated joints, we have been investigating the use of soft robotic modules which can allow for better compliance with the environment. In this article we present the first soft-material snake robot capable of non-planar locomotion. We performed experiments on the modules that make up the snake robot to determine the ideal material, settling on Ecoflex 0050. Combining 4 modules into the full soft snake, we performed locomotion experiments using both serpentine and sidewinding gaits. We determined that its maximum speed under serpentine locomotion was 131.6 mm/s (0.25 body lengths per second) while under sidewinding it was 65.2 mm/s (0.12 body lengths per second). Finally, we tested these gaits on other surfaces and found that the sidewinding could move more reliably on different surfaces.

Keywords

RobotRobot locomotionComputer scienceSoft roboticsPlanarIdeal (ethics)Soft materialsSimulationRobot kinematicsMobile robot

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