首页 /研究 /3D printed soft actuators for a legged robot capable of navigating unstructured terrain
LOCOMOTION

3D printed soft actuators for a legged robot capable of navigating unstructured terrain

Dylan Drotman, Saurabh Jadhav, Mahmood Karimi, Philip de Zonia, Michael T. Tolley

发表年份
2017
引用次数
174

摘要

Soft robots have recently demonstrated impressive abilities to adapt to objects and their environment with limited sensing and actuation. However, mobile soft robots are typically fabricated using laborious molding processes that result in limited actuated degrees of freedom and hence limited locomotion capabilities. In this paper, we present a 3D printed robot with bellowed soft legs capable of rotation about two axes. This allows our robot to navigate rough terrain that previously posed a significant challenge to soft robots. We present models and FEM simulations for the soft leg modules and predict the robot locomotion capabilities. We use finite element analysis to simulate the actuation characteristics of these modules. We then compared the analytical and computational results to experimental results with a tethered prototype. The experimental soft robot is capable of lifting its legs 5.3 cm off the ground and is able to walk at speeds up to 20 mm/s (0.13 bl/s). This work represents a practical approach to the design and fabrication of functional mobile soft robots.

关键词

RobotActuatorMobile robotTerrainComputer scienceFinite element methodSoft roboticsDegrees of freedom (physics and chemistry)SimulationRotation (mathematics)

相关论文

查看 LOCOMOTION 分类全部论文