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Title:

Design and Development of a Powered Upper Limb Exoskeleton with High Payload Capacity for Industrial Operations

Document type:
Konferenzbeitrag
Author(s):
Coruk, S.; Yildirim, M. C.; Kansizoglu, A. T.; Dalgic, O.; Ugurlu, B.
Abstract:
This study presents the hardware development and low level controller structure of an upper-body exoskeleton that is equipped with high torque-to-weight ratio actuators. It is intended to be used in industrial applications. The exoskeleton can be adjusted for various arm sizes and can ideally be used by an operator that has a height within the range of 160 cm and 200 cm. The robot structure was comprised of 4 degrees of freedom, 3 of which are powered via custom-built series elastic actuators wi...     »
Keywords:
actuators; artificial limbs; biomechanics; end effectors; human-robot interaction; industrial manipulators; motion control; torque control; wearable robots; powered upper limb exoskeleton; high payload capacity; industrial operations; hardware development; low level controller structure; upper-body exoskeleton; high torque-to-weight ratio actuators; industrial applications; arm sizes; robot structure; custom-built series elastic actuators; high power-to-weight ratio; real-time torque control cap...     »
Book / Congress title:
2020 IEEE International Conference on Human-Machine Systems (ICHMS)
Year:
2020
Pages:
1-4
Fulltext / DOI:
doi:10.1109/ICHMS49158.2020.9209374
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