A Novel Approach to Simulating Realistic Exoskeleton Behavior in Response to Human Motion

Yao Z, Seyed Milad Mir L, Molz C, Scherb D, Löffelmann C, Sänger J, Miehling J, Wartzack S, Lindenmann A, Matthiesen S, Weidner R (2024)

Publication Language: English

Publication Type: Journal article, Original article

Publication year: 2024

Journal

Robotics MDPI

Book Volume: 13

Pages Range: 27

Journal Issue: 2

DOI: 10.3390/robotics13020027

Open Access Link: https://www.mdpi.com/2218-6581/13/2/27

Abstract

Simulation models are a valuable tool for exoskeleton development, especially for system optimization and evaluation. It allows an assessment of the performance and effectiveness of exoskeletons even at an early stage of their development without physical realization. Due to the closed physical interaction between the exoskeleton and the user, accurate modeling of the human–exoskeleton interaction in defined scenarios is essential for exoskeleton simulations. This paper presents a novel approach to simulate exoskeleton motion in response to human motion and the interaction forces at the physical interfaces between the human and the exoskeleton. Our approach uses a multibody model of a shoulder exoskeleton in MATLAB R2021b and imports human motion via virtual markers from a digital human model to simulate human–exoskeleton interaction. To validate the human-motion-based approach, simulated exoskeleton motion and interaction forces are compared with experimental data from a previous lab study. The results demonstrate the feasibility of our approach to simulate human–exoskeleton interaction based on human motion. In addition, the approach is used to optimize the support profile of an exoskeleton, indicating its potential to assist exoskeleton development prior to physical prototyping.

Authors with CRIS profile

Carla Hartmann Chair of Engineering Design David Scherb Chair of Engineering Design Christopher Löffelmann Chair of Engineering Design Jörg Miehling Chair of Engineering Design Sandro Wartzack Chair of Engineering Design

Involved external institutions

Helmut-Schmidt-Universität - Universität der Bundeswehr Hamburg DE Germany (DE) Karlsruhe Institute of Technology (KIT) DE Germany (DE)

How to cite

APA:

Yao, Z., Seyed Milad Mir, L., Molz, C., Scherb, D., Löffelmann, C., Sänger, J.,... Weidner, R. (2024). A Novel Approach to Simulating Realistic Exoskeleton Behavior in Response to Human Motion. Robotics, 13(2), 27. https://doi.org/10.3390/robotics13020027

MLA:

Yao, Zhejun, et al. "A Novel Approach to Simulating Realistic Exoskeleton Behavior in Response to Human Motion." Robotics 13.2 (2024): 27.

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