allmin: A Reduced Human All-Body Model (doi:10.18419/darus-2982)

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Part 2: Study Description
Part 5: Other Study-Related Materials
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Document Description

Citation

Title:

allmin: A Reduced Human All-Body Model

Identification Number:

doi:10.18419/darus-2982

Distributor:

DaRUS

Date of Distribution:

2022-06-13

Version:

2

Bibliographic Citation:

Walter, Johannes R.; Wochner, Isabell; Jacob, Marc; Stollenmaier, Katrin; Lerge, Patrick; Schmitt, Syn, 2022, "allmin: A Reduced Human All-Body Model", https://doi.org/10.18419/darus-2982, DaRUS, V2

Study Description

Citation

Title:

allmin: A Reduced Human All-Body Model

Identification Number:

doi:10.18419/darus-2982

Authoring Entity:

Walter, Johannes R. (University of Stuttgart)

Wochner, Isabell (University of Stuttgart)

Jacob, Marc (University of Stuttgart)

Stollenmaier, Katrin (University of Stuttgart)

Lerge, Patrick (University of Stuttgart)

Schmitt, Syn (University of Stuttgart)

Grant Number:

EXC 2075 - 390740016

Grant Number:

GRK 2198/1

Grant Number:

SCHM2392/5-2

Grant Number:

Az: 33-7533.-30-20/7/2

Distributor:

DaRUS

Access Authority:

Wochner, Isabell

Access Authority:

Schmitt, Syn

Depositor:

Wochner, Isabell

Date of Deposit:

2022-06-03

Holdings Information:

https://doi.org/10.18419/darus-2982

Study Scope

Keywords:

Engineering, Mathematical Sciences, Medicine, Health and Life Sciences, Physics, Biomechanics, All-Body Model, Biological Motor Control

Abstract:

<p>A reduced all-body model parametrised using generic literature data for the geometry of the skeleton including attachment points for ligaments and muscles. This allmin model consists of a musculoskeletal model of the human body with 20 degrees of freedom actuated by 36 muscles. The model is prepared to run muscle-driven simulation. The file contains an archive including all relevant data to run the simulation in the simulator demoa. This needs to be installed separately and is available as open source too (<a href="http://get-demoa.com">get-demoa.com</a>). </p> If you use this model, please cite the related publications together with this dataset.

Methodology and Processing

Sources Statement

Data Access

Other Study Description Materials

Related Studies

Schmitt, Syn, 2022, "demoa-base: A Biophysics Simulator for Muscle-driven Motion", <a href="https://doi.org/10.18419/darus-2550">https://doi.org/10.18419/darus-2550</a>, DaRUS

Related Publications

Citation

Title:

Walter, J. R., Günther, M., Haeufle, D. F. & Schmitt, S. (2021). A geometry-and muscle-based control architecture for synthesising biological movement. Biological cybernetics, 115(1), 7-37

Identification Number:

10.1007/s00422-020-00856-4

Bibliographic Citation:

Walter, J. R., Günther, M., Haeufle, D. F. & Schmitt, S. (2021). A geometry-and muscle-based control architecture for synthesising biological movement. Biological cybernetics, 115(1), 7-37

Citation

Title:

Walter, J., Lerge, P. & Schmitt, S. (2020). Human-centred design: a comparison of ingress motion for two car concepts using a musculoskeletal, digital human body model”. In: Stuttgarter Symposium für Produktentwicklung SSP 2021, Stuttgart: Fraunhofer Verlag

Identification Number:

10.18419/opus-11478

Bibliographic Citation:

Walter, J., Lerge, P. & Schmitt, S. (2020). Human-centred design: a comparison of ingress motion for two car concepts using a musculoskeletal, digital human body model”. In: Stuttgarter Symposium für Produktentwicklung SSP 2021, Stuttgart: Fraunhofer Verlag

Other Study-Related Materials

Label:

allmin.tgz

Text:

Contains all files for the model, including the technical description and a readme file how to use/run the model.

Notes:

application/x-compressed

Other Study-Related Materials

Label:

README.md

Text:

This file describes how to install and use the model and how to run a first simple simulation.

Notes:

text/markdown

Other Study-Related Materials

Label:

Technical_Report_Allmin.pdf

Text:

Supplementary material describing the allmin model.

Notes:

application/pdf