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- Title
Characterization of an Antagonistic Actuation System with Nonlinear Compliance for an Upper-Arm Exoskeleton.
- Authors
Jäger, Max; Helbig, Thomas; Goos, Moritz; Köhring, Sebastian; Witte, Hartmut
- Abstract
The parallel connection of technical and biological systems with a comparable mechanical behavior offers the possibility of reducing the interaction forces between those systems. Especially in the context of human–robot interaction (e.g., exoskeletons), it can improve user safety and acceptance at the same time. With this aim, we used antagonistic actuators with nonlinear compliance for a modular upper-extremity exoskeleton following biological paragons, mirroring the "blueprint" of its human user. In a test-bed setup, we compared antagonistic compliant actuation with antagonistic stiff, unilateral stiff and unilateral compliant actuation in the artificial "elbow joint" of the exoskeleton test bed. We show that this type of actuation allows the variation of the joint stiffness during motion, independent of the position. With the approach we propose, compliance leads to reduced force peaks and angular jerk, without sacrifices in terms of time constants and overshoot of amplitudes. We conclude that the presented actuation principle has considerable benefits in comparison to other types of exoskeleton actuation, even when using only commercially available and 3D printed components. Based on our work, further investigations into the control of compliant antagonistically actuated exoskeletons become realizable.
- Subjects
ANIMAL exoskeletons; ELBOW joint; NONLINEAR systems; HUMAN-robot interaction; BIOLOGICAL systems; ROBOTS
- Publication
Actuators, 2023, Vol 12, Issue 5, p196
- ISSN
2076-0825
- Publication type
Article
- DOI
10.3390/act12050196