Proprioceptive Origami Manipulator
Journal:
arXiv
Published Date:
Feb 10, 2025
Abstract
Origami offers a versatile framework for designing morphable structures and
soft robots by exploiting the geometry of folds. Tubular origami structures can
act as continuum manipulators that balance flexibility and strength. However,
precise control of such manipulators often requires reliance on vision-based
systems that limit their application in complex and cluttered environments.
Here, we propose a proprioceptive tendon-driven origami manipulator without
compromising its flexibility. Using conductive threads as actuating tendons, we
multiplex them with proprioceptive sensing capabilities. The change in the
active length of the tendons is reflected in their effective resistance, which
can be measured with a simple circuit. We correlated the change in the
resistance to the lengths of the tendons. We input this information into a
forward kinematic model to reconstruct the manipulator configuration and
end-effector position. This platform provides a foundation for the closed-loop
control of continuum origami manipulators while preserving their inherent
flexibility.
