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Michael C Rosenberg

Showing results (1-10 of 16) with videos related to

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Scientific Reports|January 10, 2024
Quantifying changes in individual-specific template-based representations of center-of-mass dynamics during walking with ankle exoskeletons using Hybrid-SINDyMichael C Rosenberg, Joshua L Proctor, Katherine M Steele
Biorxiv : the Preprint Server for Biology|January 30, 2023
A machine learning approach to quantify individual gait responses to ankle exoskeletonsMegan R Ebers, Michael C Rosenberg, J Nathan Kutz, et al.
Journal of the Royal Society, Interface|October 14, 2020
Predicting walking response to ankle exoskeletons using data-driven modelsMichael C Rosenberg, Bora S Banjanin, Samuel A Burden, et al.
Journal of Biomechanics|July 5, 2023
A machine learning approach to quantify individual gait responses to ankle exoskeletonsMegan R Ebers, Michael C Rosenberg, J Nathan Kutz, et al.
Annals of the New York Academy of Sciences|November 2, 2023
An integrated review of music cognition and rhythmic stimuli in sensorimotor neurocognition and neurorehabilitationLaura Emmery, Madeleine E Hackney, Trisha Kesar, et al.
Medrxiv : the Preprint Server for Health Sciences|November 24, 2025
Neuromechanical gait signatures reveal holistic biomechanical responses to walking speed modulation in stroke survivorsMichael C Rosenberg, Taniel S Winner, Gordon J Berman, et al.
Scientific Reports|January 12, 2026
Neuromechanical gait signatures reveal holistic biomechanical responses to walking speed modulation in stroke survivorsMichael C Rosenberg, Taniel S Winner, Gordon J Berman, et al.
Scientific Reports|August 25, 2024
Gait signature changes with walking speed are similar among able-bodied young adults despite persistent individual-specific differencesTaniel S Winner, Michael C Rosenberg, Gordon J Berman, et al.
Biorxiv : the Preprint Server for Biology|May 15, 2024
Gait signature changes with walking speed are similar among able-bodied young adults despite persistent individual-specific differencesTaniel S Winner, Michael C Rosenberg, Gordon J Berman, et al.
Plos Computational Biology|October 27, 2023
Discovering individual-specific gait signatures from data-driven models of neuromechanical dynamicsTaniel S Winner, Michael C Rosenberg, Kanishk Jain, et al.
Pageof 2

Showing results (1-10 of 16) with videos related to

Sort By:
Pageof 2
Scientific Reports|January 10, 2024
Quantifying changes in individual-specific template-based representations of center-of-mass dynamics during walking with ankle exoskeletons using Hybrid-SINDyMichael C Rosenberg, Joshua L Proctor, Katherine M Steele
Biorxiv : the Preprint Server for Biology|January 30, 2023
A machine learning approach to quantify individual gait responses to ankle exoskeletonsMegan R Ebers, Michael C Rosenberg, J Nathan Kutz, et al.
Journal of the Royal Society, Interface|October 14, 2020
Predicting walking response to ankle exoskeletons using data-driven modelsMichael C Rosenberg, Bora S Banjanin, Samuel A Burden, et al.
Journal of Biomechanics|July 5, 2023
A machine learning approach to quantify individual gait responses to ankle exoskeletonsMegan R Ebers, Michael C Rosenberg, J Nathan Kutz, et al.
Annals of the New York Academy of Sciences|November 2, 2023
An integrated review of music cognition and rhythmic stimuli in sensorimotor neurocognition and neurorehabilitationLaura Emmery, Madeleine E Hackney, Trisha Kesar, et al.
Medrxiv : the Preprint Server for Health Sciences|November 24, 2025
Neuromechanical gait signatures reveal holistic biomechanical responses to walking speed modulation in stroke survivorsMichael C Rosenberg, Taniel S Winner, Gordon J Berman, et al.
Scientific Reports|January 12, 2026
Neuromechanical gait signatures reveal holistic biomechanical responses to walking speed modulation in stroke survivorsMichael C Rosenberg, Taniel S Winner, Gordon J Berman, et al.
Scientific Reports|August 25, 2024
Gait signature changes with walking speed are similar among able-bodied young adults despite persistent individual-specific differencesTaniel S Winner, Michael C Rosenberg, Gordon J Berman, et al.
Biorxiv : the Preprint Server for Biology|May 15, 2024
Gait signature changes with walking speed are similar among able-bodied young adults despite persistent individual-specific differencesTaniel S Winner, Michael C Rosenberg, Gordon J Berman, et al.
Plos Computational Biology|October 27, 2023
Discovering individual-specific gait signatures from data-driven models of neuromechanical dynamicsTaniel S Winner, Michael C Rosenberg, Kanishk Jain, et al.
Pageof 2