Bostelman, R.
, Virts, A.
, Shah, M.
, Yoon, S.
and Li-Baboud, Y.
(2022),
Towards Standard Test Artefacts for Synchronous Tracking of Human-Exoskeleton Knee Kinematics, International Journal of Human Factors Modelling and Simulation, [online], https://doi.org/10.1504/IJHFMS.2022.124305
(Accessed April 29, 2024)
Official websites use .gov
A .gov website belongs to an official government organization in the United States.
Secure .gov websites use HTTPS
A lock (
) or https:// means you’ve safely connected to the .gov website. Share sensitive information only on official, secure websites.
Towards Standard Test Artefacts for Synchronous Tracking of Human-Exoskeleton Knee Kinematics
Published
Author(s)
, , Mili Shah, ,
Abstract
A repeatable evaluation of human-exoskeleton kinematics is needed to assess an exoskeleton's impact on worker biomechanics and safety. Standard measurement methods and metrics facilitate technology adoption and effective specification of the exoskeleton's intended use. This study assesses the feasibility and repeatability of a measurement method that enables synchronous tracking of human and exoskeleton kinematics using a set of lower-limb human motion capture test artefacts and exoskeleton motion capture plates. Experimental validation was conducted on 30 subjects. The inter-trial repeatability of the human knee joint angle was within 1.2° to 2.7° and within 1.3° to 3.1° for the exoskeleton joint angle (50th to 99th percentile). To apply the measurement of the test artefacts rigid body position and orientation, two potential metrics, human-exoskeleton fit and stability, were implemented based on the exoskeleton-human alignment offset and the stability of the exoskeleton frame.Citation
International Journal of Human Factors Modelling and Simulation
Volume
7
Issue
3-4
Pub Type
Journals
Download Paper
Keywords
motion capture repeatability, exoskeleton test methods, human motion, capture test artefacts, human-exoskeleton interaction, standard measurement artefacts, synchronous human-exoskeleton tracking, knee kinematics, human-exoskeleton fit, human-exoskeleton stability, human-exoskeleton alignment
Citation
Created July 7, 2022, Updated August 3, 2022