Improving the Learning Rate, Accuracy, and Workspace of Reinforcement Learning Controllers for a Musculoskeletal Model of the Human Arm

Improving the Learning Rate, Accuracy, and Workspace of Reinforcement Learning Controllers for a Musculoskeletal Model of the Human Arm

Cervical spinal cord injuries frequently cause paralysis of all four limbs - a medical condition known as tetraplegia. Functional electrical stimulation (FES), when combined with an appropriate controller, can be used to restore motor function by electrically stimulating the neuromuscular system. Pr...

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Veröffentlicht in:IEEE transactions on neural systems and rehabilitation engineering 2022, Vol.30, p.30-39
Hauptverfasser: Crowder, Douglas C., Abreu, Jessica, Kirsch, Robert F.
Format: Artikel
Sprache:eng
Schlagworte:
Arm - physiology
Arms
Controllers
Curricula
curriculum learning
Elbow
Electric Stimulation Therapy
Electrical stimuli
functional electrical stimulation
Humans
Injuries
Iron
Learning
Muscle, Skeletal - physiology
Muscles
musculoskeletal model
Neuromuscular system
Paralysis
Quadriplegia
Read only memory
Recovery of function
Reinforcement
Reinforcement learning
Spinal Cord Injuries
Training
Transfer learning
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Zusammenfassung:Cervical spinal cord injuries frequently cause paralysis of all four limbs - a medical condition known as tetraplegia. Functional electrical stimulation (FES), when combined with an appropriate controller, can be used to restore motor function by electrically stimulating the neuromuscular system. Previous works have demonstrated that reinforcement learning can be used to successfully train FES controllers. Here, we demonstrate that transfer learning and curriculum learning can be used to improve the learning rates, accuracies, and workspaces of FES controllers that are trained using reinforcement learning.
ISSN:1534-4320
1558-0210
1558-0210
DOI:10.1109/TNSRE.2021.3135471