Robot-assisted training is a promising tool under development for improving walking function based on repetitive goal-oriented task practice. The challenges in developing the controllers for gait training devices that promote desired changes in gait is complicated by the limited understanding of the human response to robotic input. A possible method of controller formulation can be based on the principle of bio-inspiration, where a robot is controlled to apply the change in joint moment applied by human subjects when they achieve a gait feature of interest. However, it is currently unclear how lower extremity joint moments are modulated by even basic gait spatio-temporal parameters. In this study, we investigated how sagittal plane joint mo...
Many power-assist wearable exoskeletons have been developed to provide walking support and gait reha...
Many power-assist wearable exoskeletons have been developed to provide walking support and gait reha...
Inverse dynamics is a process by which kinematic and kinetic data are synchro-nized to estimate the ...
Understanding how humans adapt gait mechanics for a wide variety of locomotor tasks is important for...
For the control of actuated orthoses, or gait rehabilitation robotics, kinematic reference trajector...
Robot-assisted gait training (RAGT) is a promising therapeutic vehicle to maximize active participat...
Understanding how humans adapt gait mechanics for a wide variety of locomotor tasks is important for...
This study aimed to clarify the influence of various speeding strategies (i.e. adjustments of cadenc...
Lower-limb wearable robotic devices can improve clinical gait and reduce energetic demand in healthy...
Introduction and Objectives: Walking and running represents two different steady states in human loc...
Lower-limb wearable robotic devices can improve clinical gait and reduce energetic demand in healthy...
The central nervous system of humans and other animals modulates spinal cord activity to achieve sev...
Many power-assist wearable exoskeletons have been developed to provide walking support and gait reha...
Abstract This study aims to improve our understanding of gait initiation mechanisms and the lower-li...
The central nervous system of humans and other animals modulates spinal cord activity to achieve sev...
Many power-assist wearable exoskeletons have been developed to provide walking support and gait reha...
Many power-assist wearable exoskeletons have been developed to provide walking support and gait reha...
Inverse dynamics is a process by which kinematic and kinetic data are synchro-nized to estimate the ...
Understanding how humans adapt gait mechanics for a wide variety of locomotor tasks is important for...
For the control of actuated orthoses, or gait rehabilitation robotics, kinematic reference trajector...
Robot-assisted gait training (RAGT) is a promising therapeutic vehicle to maximize active participat...
Understanding how humans adapt gait mechanics for a wide variety of locomotor tasks is important for...
This study aimed to clarify the influence of various speeding strategies (i.e. adjustments of cadenc...
Lower-limb wearable robotic devices can improve clinical gait and reduce energetic demand in healthy...
Introduction and Objectives: Walking and running represents two different steady states in human loc...
Lower-limb wearable robotic devices can improve clinical gait and reduce energetic demand in healthy...
The central nervous system of humans and other animals modulates spinal cord activity to achieve sev...
Many power-assist wearable exoskeletons have been developed to provide walking support and gait reha...
Abstract This study aims to improve our understanding of gait initiation mechanisms and the lower-li...
The central nervous system of humans and other animals modulates spinal cord activity to achieve sev...
Many power-assist wearable exoskeletons have been developed to provide walking support and gait reha...
Many power-assist wearable exoskeletons have been developed to provide walking support and gait reha...
Inverse dynamics is a process by which kinematic and kinetic data are synchro-nized to estimate the ...