New Results
Audible Feedback Improves Internal Model Strength and Performance of Myoelectric Prosthesis Control
Ahmed W. Shehata, View ORCID ProfileErik J. Scheme, View ORCID ProfileJonathon W. Sensinger
doi: https://doi.org/10.1101/259754
Ahmed W. Shehata
1University of New Brunswick, Electrical and Computer Engineering, Fredericton, E3B5A3, Canada
2Institute of Biomedical Engineering, Fredericton, E3B5A3, Canada
Erik J. Scheme
1University of New Brunswick, Electrical and Computer Engineering, Fredericton, E3B5A3, Canada
2Institute of Biomedical Engineering, Fredericton, E3B5A3, Canada
Jonathon W. Sensinger
1University of New Brunswick, Electrical and Computer Engineering, Fredericton, E3B5A3, Canada
2Institute of Biomedical Engineering, Fredericton, E3B5A3, Canada
Article usage
Posted May 21, 2018.
Audible Feedback Improves Internal Model Strength and Performance of Myoelectric Prosthesis Control
Ahmed W. Shehata, Erik J. Scheme, Jonathon W. Sensinger
bioRxiv 259754; doi: https://doi.org/10.1101/259754
Subject Area
Subject Areas
- Biochemistry (13687)
- Bioengineering (10420)
- Bioinformatics (33129)
- Biophysics (17090)
- Cancer Biology (14157)
- Cell Biology (20087)
- Clinical Trials (138)
- Developmental Biology (10856)
- Ecology (16000)
- Epidemiology (2067)
- Evolutionary Biology (20325)
- Genetics (13389)
- Genomics (18618)
- Immunology (13738)
- Microbiology (32131)
- Molecular Biology (13371)
- Neuroscience (69972)
- Paleontology (526)
- Pathology (2187)
- Pharmacology and Toxicology (3737)
- Physiology (5855)
- Plant Biology (12019)
- Synthetic Biology (3365)
- Systems Biology (8160)
- Zoology (1841)