The GummiArm Project: A Replicable and Variable-Stiffness Robot Arm for Experiments on Embodied AI

The GummiArm Project: A Replicable and Variable-Stiffness Robot Arm for Experiments on Embodied AI

Robots used in research on Embodied AI often need to physically explore the world, to fail in the process, and to develop from such experiences. Most research robots are unfortunately too stiff to safely absorb impacts, too expensive to repair if broken repeatedly, and are never operated without the...

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Bibliographic Details
Main Authors: Bonsignorio, F. (Author), Cangelosi, A. (Author), de Azambuja, R. (Author), López Rodríguez, B. (Author), Stoelen, M.F (Author)
Format: Article
Language:English
Published: Frontiers Media S.A. 2022
Subjects:
3D printers
3D printing
3-D printing
3D-printing
embodied intelligence
Embodied intelligence
Intelligent robots
Repair
Replicable robotic research
replicable robotics research
Robot arms
Robotic arms
Robotics
Robotics research
soft robotics
Soft robotics
Stiffness
Stiffness actuators
Variable stiffness
Variable-stiffness actuator
variable-stiffness actuators
Online Access:View Fulltext in Publisher
Description
Summary:Robots used in research on Embodied AI often need to physically explore the world, to fail in the process, and to develop from such experiences. Most research robots are unfortunately too stiff to safely absorb impacts, too expensive to repair if broken repeatedly, and are never operated without the red kill-switch prominently displayed. The GummiArm Project was intended to be an open-source “soft” robot arm with human-inspired tendon actuation, sufficient dexterity for simple manipulation tasks, and with an eye on enabling easy replication of robotics experiments. The arm offers variable-stiffness and damped actuation, which lowers the potential for damage, and which enables new research opportunities in Embodied AI. The arm structure is printable on hobby-grade 3D printers for ease of manufacture, exploits stretchable composite tendons for robustness to impacts, and has a repair-cycle of minutes when something does break. The material cost of the arm is less than
ISBN:16625218 (ISSN)
DOI:10.3389/fnbot.2022.836772

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