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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531 to 540 of 809 Results

TurnOffPAHAMLFBStoch5SelectedStepSizemaxHeight_stepVal10_SimLen20_RelTol1e-05_AbsTol1e-05_HamGasGain3.750000e-01.mat Aug 4, 2023 - Experimental results for Bioinspired Preactivation Reflex Increases Robustness of Walking on Rough Terrain MATLAB Data - 2.3 KB - MD5: b8588d41bbd86ee5d8dc25e8b8bb772b
TurnOffPAHAMLFBStoch6SelectedStepSizemaxHeight_stepVal10_SimLen20_RelTol1e-05_AbsTol1e-05_HamGasGain3.750000e-01.mat Aug 4, 2023 - Experimental results for Bioinspired Preactivation Reflex Increases Robustness of Walking on Rough Terrain MATLAB Data - 2.3 KB - MD5: adfe33c2715041a7609ebc95ad9fc727
TurnOffPAHAMLFBStoch7SelectedStepSizemaxHeight_stepVal10_SimLen20_RelTol1e-05_AbsTol1e-05_HamGasGain3.750000e-01.mat Aug 4, 2023 - Experimental results for Bioinspired Preactivation Reflex Increases Robustness of Walking on Rough Terrain MATLAB Data - 2.3 KB - MD5: 20bbeaf929bd00a83b25fc3266395c1a
TurnOffPAHAMLFBStoch8SelectedStepSizemaxHeight_stepVal10_SimLen20_RelTol1e-05_AbsTol1e-05_HamGasGain3.750000e-01.mat Aug 4, 2023 - Experimental results for Bioinspired Preactivation Reflex Increases Robustness of Walking on Rough Terrain MATLAB Data - 2.3 KB - MD5: 7cc15296ce565bebc6c2f7bbcd35f3d8
TurnOffPAHAMLFBStoch9SelectedStepSizemaxHeight_stepVal10_SimLen20_RelTol1e-05_AbsTol1e-05_HamGasGain3.750000e-01.mat Aug 4, 2023 - Experimental results for Bioinspired Preactivation Reflex Increases Robustness of Walking on Rough Terrain MATLAB Data - 2.3 KB - MD5: c7b9de02288a14bedcda77c644784304
Vas.dat Aug 4, 2023 - Experimental results for Bioinspired Preactivation Reflex Increases Robustness of Walking on Rough Terrain Fixed Field Text Data - 1.9 KB - MD5: e9f4c398404c1af159ac8b436629c874
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 study. Abstract: Objective: Studying motor units (MUs) is essential for...
align_signals.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 - 1.7 KB - MD5: 6fdf47763cbbe254676c01932eff06ca Help function to align two signals in the temporal domain.
calculate_spike_train.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 - 1.8 KB - MD5: 8f7923ca50fb1e6131939aebfe1812f8 Matlab scrip to compute the motor unit spike trains as described in the manuscript.
compute_cosine_similarity.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 - 1.2 KB - MD5: 708d6a6dc27d2ba2ca2d5522f43594d5 Matlab function to compute the cosine similarity between all motor unit responses given a libray of signals.

TurnOffPAHAMLFBStoch5SelectedStepSizemaxHeight_stepVal10_SimLen20_RelTol1e-05_AbsTol1e-05_HamGasGain3.750000e-01.mat

Aug 4, 2023 - Experimental results for Bioinspired Preactivation Reflex Increases Robustness of Walking on Rough Terrain

MATLAB Data - 2.3 KB -

TurnOffPAHAMLFBStoch6SelectedStepSizemaxHeight_stepVal10_SimLen20_RelTol1e-05_AbsTol1e-05_HamGasGain3.750000e-01.mat

Aug 4, 2023 - Experimental results for Bioinspired Preactivation Reflex Increases Robustness of Walking on Rough Terrain

MATLAB Data - 2.3 KB -

TurnOffPAHAMLFBStoch7SelectedStepSizemaxHeight_stepVal10_SimLen20_RelTol1e-05_AbsTol1e-05_HamGasGain3.750000e-01.mat

Aug 4, 2023 - Experimental results for Bioinspired Preactivation Reflex Increases Robustness of Walking on Rough Terrain

MATLAB Data - 2.3 KB -

TurnOffPAHAMLFBStoch8SelectedStepSizemaxHeight_stepVal10_SimLen20_RelTol1e-05_AbsTol1e-05_HamGasGain3.750000e-01.mat

Aug 4, 2023 - Experimental results for Bioinspired Preactivation Reflex Increases Robustness of Walking on Rough Terrain

MATLAB Data - 2.3 KB -

TurnOffPAHAMLFBStoch9SelectedStepSizemaxHeight_stepVal10_SimLen20_RelTol1e-05_AbsTol1e-05_HamGasGain3.750000e-01.mat

Aug 4, 2023 - Experimental results for Bioinspired Preactivation Reflex Increases Robustness of Walking on Rough Terrain

MATLAB Data - 2.3 KB -

Vas.dat

Aug 4, 2023 - Experimental results for Bioinspired Preactivation Reflex Increases Robustness of Walking on Rough Terrain

Fixed Field Text Data - 1.9 KB -

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 study. Abstract: Objective: Studying motor units (MUs) is essential for...

align_signals.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 - 1.7 KB -

Help function to align two signals in the temporal domain.

calculate_spike_train.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 - 1.8 KB -

Matlab scrip to compute the motor unit spike trains as described in the manuscript.

compute_cosine_similarity.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 - 1.2 KB -

Matlab function to compute the cosine similarity between all motor unit responses given a libray of signals.

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