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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611 to 620 of 801 Results

muscle_5_f5mm_low_mvc.mat Jul 14, 2023 - Replication Data for: "High-density magnetomyography is superior to high-density surface electromyography for motor unit decomposition: a simulation study" MATLAB Data - 123.6 MB - MD5: 102061979a5a273344de93b0aa98ffad Simulated high-density EMG and high-density MMG singal for a 30 second long voluntary isometric contraction.
muscle_5_f5mm.mat Jul 14, 2023 - Replication Data for: "High-density magnetomyography is superior to high-density surface electromyography for motor unit decomposition: a simulation study" MATLAB Data - 36.8 MB - MD5: 0dd95db8437b4536f327db6151564a7f Simulated motor unit electric potentials (MUEPs) and motor unit magnetic fields (MUMFs) measured from a virtual high-density EMG or MMG array (70 sampling points).
muscle_5_f5mm_medium_mvc.mat Jul 14, 2023 - Replication Data for: "High-density magnetomyography is superior to high-density surface electromyography for motor unit decomposition: a simulation study" MATLAB Data - 123.5 MB - MD5: 18612421180ad8f261e8547d71adfa07 Simulated high-density EMG and high-density MMG singal for a 30 second long voluntary isometric contraction.
muscle_5.mat Jul 14, 2023 - Replication Data for: "High-density magnetomyography is superior to high-density surface electromyography for motor unit decomposition: a simulation study" MATLAB Data - 69.2 KB - MD5: aa1abe3cfb63ec2b94279428ad2759e0 Motor unit territories for the simulated motor unit pools (Dim 1: y-coordinate, Dim 2: z-coordinate, Dim 3: Motor unit index).
muscle_basic_properties_f5mm.mat Jul 14, 2023 - Replication Data for: "High-density magnetomyography is superior to high-density surface electromyography for motor unit decomposition: a simulation study" MATLAB Data - 1.2 MB - MD5: 59fcec0ebf340e6ca397ae3ad9e9fad0 Simulated motor unit electric potentials (MUEPs) and motor unit magnetic fields (MUMFs) measured from a virtual high-density EMG or MMG array (70 sampling points). Specifically, this data shocases the influecne of the MU depth. All MU territories are identical, however, shifted in depth.
simulate_motor_unit_response_library.m Jul 14, 2023 - Replication Data for: "High-density magnetomyography is superior to high-density surface electromyography for motor unit decomposition: a simulation study" MATLAB Source Code - 7.7 KB - MD5: 2acbb8a9811ebacc2169b0d653b577c6 Input file to simulate the motor unit response libraries with the multi-domain simulation framework. Executing this script requires to download a freely available software package: https://bitbucket.org/klotz_t/multi_domain_fd_code/
spiketrains_high_mvc.mat Jul 14, 2023 - Replication Data for: "High-density magnetomyography is superior to high-density surface electromyography for motor unit decomposition: a simulation study" MATLAB Data - 174.4 KB - MD5: 840f717e3ae15bd67577eb3124db03f0 Binary spike train that is used as input for generating interference signals (Dim 1: Motor unit index, Dim 2: Time Sample).
spiketrains_low_mvc.mat Jul 14, 2023 - Replication Data for: "High-density magnetomyography is superior to high-density surface electromyography for motor unit decomposition: a simulation study" MATLAB Data - 59.2 KB - MD5: e505c7a453471ecd3bafe1fd38e25293 Binary spike train that is used as input for generating interference signals (Dim 1: Motor unit index, Dim 2: Time Sample).
spiketrains_medium_mvc.mat Jul 14, 2023 - Replication Data for: "High-density magnetomyography is superior to high-density surface electromyography for motor unit decomposition: a simulation study" MATLAB Data - 107.2 KB - MD5: eb865075da56043cae599f0db757d372 Binary spike train that is used as input for generating interference signals (Dim 1: Motor unit index, Dim 2: Time Sample).
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. Abstract: Being able to decode neural signals that control skeletal muscles...

muscle_5_f5mm_low_mvc.mat

Jul 14, 2023 - Replication Data for: "High-density magnetomyography is superior to high-density surface electromyography for motor unit decomposition: a simulation study"

MATLAB Data - 123.6 MB -

Simulated high-density EMG and high-density MMG singal for a 30 second long voluntary isometric contraction.

muscle_5_f5mm.mat

Jul 14, 2023 - Replication Data for: "High-density magnetomyography is superior to high-density surface electromyography for motor unit decomposition: a simulation study"

MATLAB Data - 36.8 MB -

Simulated motor unit electric potentials (MUEPs) and motor unit magnetic fields (MUMFs) measured from a virtual high-density EMG or MMG array (70 sampling points).

muscle_5_f5mm_medium_mvc.mat

Jul 14, 2023 - Replication Data for: "High-density magnetomyography is superior to high-density surface electromyography for motor unit decomposition: a simulation study"

MATLAB Data - 123.5 MB -

Simulated high-density EMG and high-density MMG singal for a 30 second long voluntary isometric contraction.

muscle_5.mat

Jul 14, 2023 - Replication Data for: "High-density magnetomyography is superior to high-density surface electromyography for motor unit decomposition: a simulation study"

MATLAB Data - 69.2 KB -

Motor unit territories for the simulated motor unit pools (Dim 1: y-coordinate, Dim 2: z-coordinate, Dim 3: Motor unit index).

muscle_basic_properties_f5mm.mat

Jul 14, 2023 - Replication Data for: "High-density magnetomyography is superior to high-density surface electromyography for motor unit decomposition: a simulation study"

MATLAB Data - 1.2 MB -

Simulated motor unit electric potentials (MUEPs) and motor unit magnetic fields (MUMFs) measured from a virtual high-density EMG or MMG array (70 sampling points). Specifically, this data shocases the influecne of the MU depth. All MU territories are identical, however, shifted in depth.

simulate_motor_unit_response_library.m

Jul 14, 2023 - Replication Data for: "High-density magnetomyography is superior to high-density surface electromyography for motor unit decomposition: a simulation study"

MATLAB Source Code - 7.7 KB -

Input file to simulate the motor unit response libraries with the multi-domain simulation framework. Executing this script requires to download a freely available software package: https://bitbucket.org/klotz_t/multi_domain_fd_code/

spiketrains_high_mvc.mat

Jul 14, 2023 - Replication Data for: "High-density magnetomyography is superior to high-density surface electromyography for motor unit decomposition: a simulation study"

MATLAB Data - 174.4 KB -

Binary spike train that is used as input for generating interference signals (Dim 1: Motor unit index, Dim 2: Time Sample).

spiketrains_low_mvc.mat

Jul 14, 2023 - Replication Data for: "High-density magnetomyography is superior to high-density surface electromyography for motor unit decomposition: a simulation study"

MATLAB Data - 59.2 KB -

Binary spike train that is used as input for generating interference signals (Dim 1: Motor unit index, Dim 2: Time Sample).

spiketrains_medium_mvc.mat

Jul 14, 2023 - Replication Data for: "High-density magnetomyography is superior to high-density surface electromyography for motor unit decomposition: a simulation study"

MATLAB Data - 107.2 KB -

Binary spike train that is used as input for generating interference signals (Dim 1: Motor unit index, Dim 2: Time Sample).

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. Abstract: Being able to decode neural signals that control skeletal muscles...

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