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 815 Results
TurnOffPAHAMLFBStoch3SelectedStepSizemaxHeight_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: 7000d1ae2b5d44ccb17590b0f1ce0c89
TurnOffPAHAMLFBStoch4SelectedStepSizemaxHeight_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: 051d26f4f2cf396a7d1c4c13c3edd6cf
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
Walking Model(Universität Stuttgart)
Jul 31, 2023
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...
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