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Bibliographic Details
Main Authors: Zoufaly, Ondrej, Chadwick, Edward, Blana, Dimitra, Daniel, Matej
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2502.03475
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author Zoufaly, Ondrej
Chadwick, Edward
Blana, Dimitra
Daniel, Matej
author_facet Zoufaly, Ondrej
Chadwick, Edward
Blana, Dimitra
Daniel, Matej
contents Euler angle representation in biomechanical analysis allows straightforward description of joints rotations. However, application of Euler angles could be limited due to singularity called gimbal lock. Quaternions offer an alternative way to describe rotations but they have been mostly avoided in biomechanics as they are complex and not inherently intuitive, specifically in dynamic models actuated by muscles. This study introduces a mathematical framework for describing muscle actions in dynamic quaternion-based musculoskeletal simulations. The proposed method estimates muscle torques in quaternion-based musculoskeletal model. Its application is shown on three-dimensional double-pendulum system actuated by muscle elements. Furthermore, transformation of muscle moment arms obtained from muscle paths based on Euler angles into quaternions description is presented. The proposed method is advantageous for dynamic modeling of musculoskeletal models with complex kinematics and large range of motion like the shoulder joint.
format Preprint
id arxiv_https___arxiv_org_abs_2502_03475
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Calculation of a force effect from muscle action to a quaternion-based musculoskeletal model
Zoufaly, Ondrej
Chadwick, Edward
Blana, Dimitra
Daniel, Matej
Medical Physics
Euler angle representation in biomechanical analysis allows straightforward description of joints rotations. However, application of Euler angles could be limited due to singularity called gimbal lock. Quaternions offer an alternative way to describe rotations but they have been mostly avoided in biomechanics as they are complex and not inherently intuitive, specifically in dynamic models actuated by muscles. This study introduces a mathematical framework for describing muscle actions in dynamic quaternion-based musculoskeletal simulations. The proposed method estimates muscle torques in quaternion-based musculoskeletal model. Its application is shown on three-dimensional double-pendulum system actuated by muscle elements. Furthermore, transformation of muscle moment arms obtained from muscle paths based on Euler angles into quaternions description is presented. The proposed method is advantageous for dynamic modeling of musculoskeletal models with complex kinematics and large range of motion like the shoulder joint.
title Calculation of a force effect from muscle action to a quaternion-based musculoskeletal model
topic Medical Physics
url https://arxiv.org/abs/2502.03475