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Publication Year: 2022

1 to 10 of 5,569 Results

ABxM.Core: The Core Libraries of the ABxM Framework Jun 5, 2025 - ABxM Framework for Agent-based Modeling and Simulation Nguyen, Long; Schwinn, Tobias; Groenewolt, Abel; Maierhofer, Mathias; Zorn, Max Benjamin; Stieler, David; Siriwardena, Lasath; Kannenberg, Fabian; Menges, Achim, 2022, "ABxM.Core: The Core Libraries of the ABxM Framework", https://doi.org/10.18419/DARUS-2994, DaRUS, V5 The ABxM.Core consists of the agent core library ABxM.Core and an interoperability library for Rhino 7 and later versions. ABxM.Core implements the functionality specific to agent-based modelling and simulation. The core library can, in principle, be referenced from any application that is compatible with McNeel’s Rhino.Inside technology. ABxM.Core...
ABxM.Core-1.7.0.zip Jun 5, 2025 - ABxM.Core: The Core Libraries of the ABxM Framework ZIP Archive - 7.4 MB - MD5: 69640fa696c81c93398350afb98da032
ABxM.Core.Help.chm Jun 5, 2025 - ABxM.Core: The Core Libraries of the ABxM Framework application/vnd.ms-htmlhelp - 519.1 KB - MD5: 10923118dea9f1d0b341d9249add8ab9
allmin: A Reduced Human All-Body Model Jun 3, 2025 - demoa 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, V3 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 contain...
allmin-3.0.tgz Jun 3, 2025 - allmin: A Reduced Human All-Body Model TAR Archive - 71.1 KB - MD5: 6e0d484243db14d4bed0db1b5fd93d21
LICENSE Jun 3, 2025 - allmin: A Reduced Human All-Body Model Plain Text - 1.5 KB - MD5: 1cd608add5724e6f8e1cc9bb99cee225
README.md Jun 3, 2025 - allmin: A Reduced Human All-Body Model Markdown Text - 1.9 KB - MD5: a28d7b07e57e74c877b5d53513a07a7d
demoa-base: a biophysics simulator for muscle-driven motion May 28, 2025 - demoa Schmitt, Syn, 2022, "demoa-base: a biophysics simulator for muscle-driven motion", https://doi.org/10.18419/DARUS-2550, DaRUS, V6 For more information, such as installation, requirements and user guide, please see the demoa manual. The development of this package was supported by “Deutsche Forschungsgemeinschaft” (DFG, German Research Foundation) under Germany’s Excellence Strategy - EXC 2075 - 390740016.
demoa-base-3.1.tgz May 28, 2025 - demoa-base: a biophysics simulator for muscle-driven motion TAR Archive - 40.0 MB - MD5: e0b90618a77743b8024cec5580e7c49a Version 3.1
gspine: A Human Spine Model Built Using Literature Data Jan 13, 2025 - demoa Hammer, Maria; Riede, Julia Maria; Meszaros-Beller, Laura; Schmitt, Syn, 2022, "gspine: A Human Spine Model Built Using Literature Data", https://doi.org/10.18419/DARUS-2814, DaRUS, V4 A fully articulating human spine model parametrised using generic literature data for the geometry of the skeleton including attachment points for ligaments and muscles. The model is prepared to run muscle-driven simulations using a simple biological motor control model. The file contains an archive including all relevant data to run the simulation...

ABxM.Core: The Core Libraries of the ABxM Framework

Jun 5, 2025 - ABxM Framework for Agent-based Modeling and Simulation

Nguyen, Long; Schwinn, Tobias; Groenewolt, Abel; Maierhofer, Mathias; Zorn, Max Benjamin; Stieler, David; Siriwardena, Lasath; Kannenberg, Fabian; Menges, Achim, 2022, "ABxM.Core: The Core Libraries of the ABxM Framework", https://doi.org/10.18419/DARUS-2994, DaRUS, V5

The ABxM.Core consists of the agent core library ABxM.Core and an interoperability library for Rhino 7 and later versions. ABxM.Core implements the functionality specific to agent-based modelling and simulation. The core library can, in principle, be referenced from any application that is compatible with McNeel’s Rhino.Inside technology. ABxM.Core...

ABxM.Core-1.7.0.zip

Jun 5, 2025 - ABxM.Core: The Core Libraries of the ABxM Framework

ZIP Archive - 7.4 MB -

ABxM.Core.Help.chm

Jun 5, 2025 - ABxM.Core: The Core Libraries of the ABxM Framework

application/vnd.ms-htmlhelp - 519.1 KB -

allmin: A Reduced Human All-Body Model

Jun 3, 2025 - demoa

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, V3

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 contain...

allmin-3.0.tgz

Jun 3, 2025 - allmin: A Reduced Human All-Body Model

TAR Archive - 71.1 KB -

LICENSE

Jun 3, 2025 - allmin: A Reduced Human All-Body Model

Plain Text - 1.5 KB -

README.md

Jun 3, 2025 - allmin: A Reduced Human All-Body Model

Markdown Text - 1.9 KB -

demoa-base: a biophysics simulator for muscle-driven motion

May 28, 2025 - demoa

Schmitt, Syn, 2022, "demoa-base: a biophysics simulator for muscle-driven motion", https://doi.org/10.18419/DARUS-2550, DaRUS, V6

For more information, such as installation, requirements and user guide, please see the demoa manual. The development of this package was supported by “Deutsche Forschungsgemeinschaft” (DFG, German Research Foundation) under Germany’s Excellence Strategy - EXC 2075 - 390740016.

demoa-base-3.1.tgz

May 28, 2025 - demoa-base: a biophysics simulator for muscle-driven motion

TAR Archive - 40.0 MB -

Version 3.1

gspine: A Human Spine Model Built Using Literature Data

Jan 13, 2025 - demoa

Hammer, Maria; Riede, Julia Maria; Meszaros-Beller, Laura; Schmitt, Syn, 2022, "gspine: A Human Spine Model Built Using Literature Data", https://doi.org/10.18419/DARUS-2814, DaRUS, V4

A fully articulating human spine model parametrised using generic literature data for the geometry of the skeleton including attachment points for ligaments and muscles. The model is prepared to run muscle-driven simulations using a simple biological motor control model. The file contains an archive including all relevant data to run the simulation...

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