Add to ORKGContinuous myoelectric prediction of intended limb dynamics has the ability to provide transparent control of a prosthesis by the user. However, the impact on these models of adding a human user into the control loop is less clear. Here, the ability of a User Response Model (URM) to continuously predict EMG activity from gait kinematics and kinetics collected during three mobility tasks (level-ground walking, stair ascent, and stair descent) was examined. Multiple-input, multiple-output NARX-based URMs were developed with two outputs (ankle plantarflexor and dorsiflexor) and variable inputs (ankle kinetics, and shank and/or ankle kinematics). Accuracy in predicting the tibialis anterior and medial gastrocnemius EMG was comparable across URM...
Aiming at dexterous and reliable solutions to increase the quality of life of amputees, upper limb p...
This study focused on validating muscle activities predicted by the a Lower Limb musculoskeletal mod...
A main challenge in the development of robotic rehabilitation devices is how to understand patient's...
The purpose of this dissertation is to develop a continuous predictive model of gait that incorporat...
A hallmark of human locomotion is that it continuously adapts to changes in the environment and pred...
A hallmark of human locomotion is that it continuously adapts to changes in the environment and pred...
Objective. Powered robotic prostheses create a need for natural-feeling user interfaces and robust c...
For assistive devices such as active orthoses, exoskeletons or other close-to-body robotic-systems, ...
Active prosthetic and orthotic devices have the potential to increase quality of life for individual...
Background: Current myoelectric control algorithms for active prostheses map time- and frequency-dom...
Lower limb dynamic models are useful to investigate the biomechanics of the knee and ankle joints, b...
Electromyography (EMG) feedback can deliver targeted information about the generation of movement pa...
Abstract — This study investigated the use of surface electromyography (EMG) combined with pattern r...
Powered prosthetic legs are promising solutions to assist amputees locomotion in a large variety of ...
Although great advances have been made in the design and control of lower extremity prostheses, walk...
Aiming at dexterous and reliable solutions to increase the quality of life of amputees, upper limb p...
This study focused on validating muscle activities predicted by the a Lower Limb musculoskeletal mod...
A main challenge in the development of robotic rehabilitation devices is how to understand patient's...
The purpose of this dissertation is to develop a continuous predictive model of gait that incorporat...
A hallmark of human locomotion is that it continuously adapts to changes in the environment and pred...
A hallmark of human locomotion is that it continuously adapts to changes in the environment and pred...
Objective. Powered robotic prostheses create a need for natural-feeling user interfaces and robust c...
For assistive devices such as active orthoses, exoskeletons or other close-to-body robotic-systems, ...
Active prosthetic and orthotic devices have the potential to increase quality of life for individual...
Background: Current myoelectric control algorithms for active prostheses map time- and frequency-dom...
Lower limb dynamic models are useful to investigate the biomechanics of the knee and ankle joints, b...
Electromyography (EMG) feedback can deliver targeted information about the generation of movement pa...
Abstract — This study investigated the use of surface electromyography (EMG) combined with pattern r...
Powered prosthetic legs are promising solutions to assist amputees locomotion in a large variety of ...
Although great advances have been made in the design and control of lower extremity prostheses, walk...
Aiming at dexterous and reliable solutions to increase the quality of life of amputees, upper limb p...
This study focused on validating muscle activities predicted by the a Lower Limb musculoskeletal mod...
A main challenge in the development of robotic rehabilitation devices is how to understand patient's...