Institute for Modelling and Simulation of Biomechanical Systems

Our vision at the Institute for Modelling and Simulation of Biomechanical Systems (IMSB) is to use computational and experimental methods to enhance our knowledge about biomechanical systems with a particular focus on the Human System. For more information please also visit our institute's website.

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1 to 10 of 17 Results

Control effort for microswimmer systems(Universität Stuttgart) Sep 17, 2021 Supplementary material for the paper The control effort to steer self-propelled microswimmers depends on their morphology: comparing circular and linear movement of symmetric spherical vs. asymmetric L-shaped particles.
Supplementary material for the paper "Control effort for microswimmers" Sep 27, 2021 - Control effort for microswimmer systems Riede, Julia Maria, 2021, "Supplementary material for the paper "Control effort for microswimmers"", https://doi.org/10.18419/darus-1179, DaRUS, V1 Supplementary Material. The Matlab scripts were used to create the data (i.e. particle trajectories with different optimisations) for the Paper "The control effort to steer self-propelled microswimmers depends on their morphology: comparing circular and linear movement of symmetr...
Falling Heads(Universität Stuttgart) Feb 24, 2022
EMG data for Falling Heads: investigating reflexive responses in active Human Body Models Apr 1, 2022 - Falling Heads Wochner, Isabell; Schmitt, Syn, 2022, "EMG data for Falling Heads: investigating reflexive responses in active Human Body Models", https://doi.org/10.18419/darus-1038, DaRUS, V1, UNF:6:qCoJktHRm+8r61oAjbw9+w== [fileUNF] This dataset contains the raw electromyographic (EMG) data for 17 participants of the Falling Head experiment of the paper "’Falling Heads’: investigating reflexive responses to head-neck perturbations" by Isabell Wochner, Lennart V. Nölle, Oleksandr V. Martynenko and Syn Schmitt...
Trajectory Data for Falling Heads: investigating reflexive responses to head-neck perturbations Apr 1, 2022 - Falling Heads Wochner, Isabell, 2022, "Trajectory Data for Falling Heads: investigating reflexive responses to head-neck perturbations", https://doi.org/10.18419/darus-1132, DaRUS, V1, UNF:6:qCoJktHRm+8r61oAjbw9+w== [fileUNF] This dataset contains the extracted trajectories from the video data for 17 participants of the Falling Head experiment of the paper "’Falling Heads’: investigating reflexive responses to head-neck perturbations" by Isabell Wochner, Lennart V. Nölle, Oleksandr V. Martynenko and S...
Neck muscle data for Falling Heads: investigating reflexive responses to head-neck perturbations Apr 1, 2022 - Falling Heads Wochner, Isabell; Schmitt, Syn, 2022, "Neck muscle data for Falling Heads: investigating reflexive responses to head-neck perturbations", https://doi.org/10.18419/darus-1145, DaRUS, V1, UNF:6:x9+WHb9RUaJfQ9jJiNEQJw== [fileUNF] This dataset contains the neck muscle parameters for the user-defined Extended Hill Type Muscle Material as used in the publication paper "’Falling Heads’: investigating reflexive responses to head-neck perturbations" by Isabell Wochner, Lennart V. Nölle, Oleksandr V. Martynenko...
Postprocessing Code for 'Falling Heads': investigating reflexive responses to head-neck perturbations Apr 1, 2022 - Falling Heads Wochner, Isabell; Schmitt, Syn, 2022, "Postprocessing Code for 'Falling Heads': investigating reflexive responses to head-neck perturbations", https://doi.org/10.18419/darus-2526, DaRUS, V1 This dataset contains the code necessary to postprocess the experimental trajectory data of the Falling Heads experiment and perform the inverse dynamics analysis as described in the paper "’Falling Heads’: investigating reflexive responses to head-neck perturbations" by Isabell...
User-material for: "A biophysically guided constitutive law of the musculotendon-complex: modelling and numerical implementation in Abaqus" Sep 28, 2022 Saini, Harnoor, 2022, "User-material for: "A biophysically guided constitutive law of the musculotendon-complex: modelling and numerical implementation in Abaqus"", https://doi.org/10.18419/darus-2229, DaRUS, V1 Background and Objective: Many biomedical, clinical, and industrial applications may benefit from musculoskeletal simulations. Three-dimensional macroscopic muscle models (3D models) can more accurately represent muscle architecture than their 1D (line-segment) counterparts. Neve...
qMOTION - Simulation-enhanced Highdensity Magneto-myographic Quantum Sensor Systems for Decoding Neuromuscular Control During Motion(Universität Stuttgart) Jun 29, 2023 This dataverse hosts all data aquired within the resreach project "qMOTION - Simulation-enhanced Highdensity Magneto-myographic Quantum Sensor Systems for Decoding Neuromuscular Control During Motion" funded by the European Reserach Council through ERC-AdG 2021 #101055186. Abstra...
Replication Data for: "High-density magnetomyography is superior to high-density surface electromyography for motor unit decomposition: a simulation study" Jul 14, 2023 - qMOTION - Simulation-enhanced Highdensity Magneto-myographic Quantum Sensor Systems for Decoding Neuromuscular Control During Motion Klotz, Thomas; Lehmann, Lena; Negro, Francesco; Röhrle, Oliver, 2023, "Replication Data for: "High-density magnetomyography is superior to high-density surface electromyography for motor unit decomposition: a simulation study"", https://doi.org/10.18419/darus-3556, DaRUS, V1 This dataset contains simulated high-density magnetomyography data and high-desnity surface elecoromyography data that was generated for the publication High-density magnetomyography is superior to high-density surface electromyography for motor unit decomposition: a simulation s...

Control effort for microswimmer systems(Universität Stuttgart)

Sep 17, 2021

Supplementary material for the paper The control effort to steer self-propelled microswimmers depends on their morphology: comparing circular and linear movement of symmetric spherical vs. asymmetric L-shaped particles.

Supplementary material for the paper "Control effort for microswimmers"

Sep 27, 2021 - Control effort for microswimmer systems

Riede, Julia Maria, 2021, "Supplementary material for the paper "Control effort for microswimmers"", https://doi.org/10.18419/darus-1179, DaRUS, V1

Supplementary Material. The Matlab scripts were used to create the data (i.e. particle trajectories with different optimisations) for the Paper "The control effort to steer self-propelled microswimmers depends on their morphology: comparing circular and linear movement of symmetr...

Falling Heads(Universität Stuttgart)

Feb 24, 2022

EMG data for Falling Heads: investigating reflexive responses in active Human Body Models

Apr 1, 2022 - Falling Heads

Wochner, Isabell; Schmitt, Syn, 2022, "EMG data for Falling Heads: investigating reflexive responses in active Human Body Models", https://doi.org/10.18419/darus-1038, DaRUS, V1, UNF:6:qCoJktHRm+8r61oAjbw9+w== [fileUNF]

This dataset contains the raw electromyographic (EMG) data for 17 participants of the Falling Head experiment of the paper "’Falling Heads’: investigating reflexive responses to head-neck perturbations" by Isabell Wochner, Lennart V. Nölle, Oleksandr V. Martynenko and Syn Schmitt...

Trajectory Data for Falling Heads: investigating reflexive responses to head-neck perturbations

Apr 1, 2022 - Falling Heads

Wochner, Isabell, 2022, "Trajectory Data for Falling Heads: investigating reflexive responses to head-neck perturbations", https://doi.org/10.18419/darus-1132, DaRUS, V1, UNF:6:qCoJktHRm+8r61oAjbw9+w== [fileUNF]

This dataset contains the extracted trajectories from the video data for 17 participants of the Falling Head experiment of the paper "’Falling Heads’: investigating reflexive responses to head-neck perturbations" by Isabell Wochner, Lennart V. Nölle, Oleksandr V. Martynenko and S...

Neck muscle data for Falling Heads: investigating reflexive responses to head-neck perturbations

Apr 1, 2022 - Falling Heads

Wochner, Isabell; Schmitt, Syn, 2022, "Neck muscle data for Falling Heads: investigating reflexive responses to head-neck perturbations", https://doi.org/10.18419/darus-1145, DaRUS, V1, UNF:6:x9+WHb9RUaJfQ9jJiNEQJw== [fileUNF]

This dataset contains the neck muscle parameters for the user-defined Extended Hill Type Muscle Material as used in the publication paper "’Falling Heads’: investigating reflexive responses to head-neck perturbations" by Isabell Wochner, Lennart V. Nölle, Oleksandr V. Martynenko...

Postprocessing Code for 'Falling Heads': investigating reflexive responses to head-neck perturbations

Apr 1, 2022 - Falling Heads

Wochner, Isabell; Schmitt, Syn, 2022, "Postprocessing Code for 'Falling Heads': investigating reflexive responses to head-neck perturbations", https://doi.org/10.18419/darus-2526, DaRUS, V1

This dataset contains the code necessary to postprocess the experimental trajectory data of the Falling Heads experiment and perform the inverse dynamics analysis as described in the paper "’Falling Heads’: investigating reflexive responses to head-neck perturbations" by Isabell...

User-material for: "A biophysically guided constitutive law of the musculotendon-complex: modelling and numerical implementation in Abaqus"

Sep 28, 2022

Saini, Harnoor, 2022, "User-material for: "A biophysically guided constitutive law of the musculotendon-complex: modelling and numerical implementation in Abaqus"", https://doi.org/10.18419/darus-2229, DaRUS, V1

Background and Objective: Many biomedical, clinical, and industrial applications may benefit from musculoskeletal simulations. Three-dimensional macroscopic muscle models (3D models) can more accurately represent muscle architecture than their 1D (line-segment) counterparts. Neve...

qMOTION - Simulation-enhanced Highdensity Magneto-myographic Quantum Sensor Systems for Decoding Neuromuscular Control During Motion(Universität Stuttgart)

Jun 29, 2023

This dataverse hosts all data aquired within the resreach project "qMOTION - Simulation-enhanced Highdensity Magneto-myographic Quantum Sensor Systems for Decoding Neuromuscular Control During Motion" funded by the European Reserach Council through ERC-AdG 2021 #101055186. Abstra...

Replication Data for: "High-density magnetomyography is superior to high-density surface electromyography for motor unit decomposition: a simulation study"

Jul 14, 2023 - qMOTION - Simulation-enhanced Highdensity Magneto-myographic Quantum Sensor Systems for Decoding Neuromuscular Control During Motion

Klotz, Thomas; Lehmann, Lena; Negro, Francesco; Röhrle, Oliver, 2023, "Replication Data for: "High-density magnetomyography is superior to high-density surface electromyography for motor unit decomposition: a simulation study"", https://doi.org/10.18419/darus-3556, DaRUS, V1

This dataset contains simulated high-density magnetomyography data and high-desnity surface elecoromyography data that was generated for the publication High-density magnetomyography is superior to high-density surface electromyography for motor unit decomposition: a simulation s...

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