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Neural Network-Based Muscle Torque Estimation Using Mechanomyography During Electrically-Evoked Knee Extension and Standing in Spinal Cord Injury.

, , , и . Frontiers Neurorobotics, (2018)

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Другие публикации лиц с тем же именем

Arm Exercises for Individuals with Spinal Cord Injury: Exergaming versus Arm Cranking., , , , , и . SeGAH, стр. 1-7. IEEE, (2019)Neural Network-Based Muscle Torque Estimation Using Mechanomyography During Electrically-Evoked Knee Extension and Standing in Spinal Cord Injury., , , и . Frontiers Neurorobotics, (2018)Mechanomyography and Torque during FES-Evoked Muscle Contractions to Fatigue in Individuals with Spinal Cord Injury., , , , и . Sensors, 17 (7): 1627 (2017)Restoring prolonged standing via functional electrical stimulation after spinal cord injury: A systematic review of control strategies., , , , и . Biomed. Signal Process. Control., (2019)Evoked EMG versus Muscle Torque during Fatiguing Functional Electrical Stimulation-Evoked Muscle Contractions and Short-Term Recovery in Individuals with Spinal Cord Injury., , , , , и . Sensors, 14 (12): 22907-22920 (2014)SVR modelling of mechanomyographic signals predicts neuromuscular stimulation-evoked knee torque in paralyzed quadriceps muscles undergoing knee extension exercise., , , , , и . Comput. Biol. Medicine, (2020)Mechanomyographic Parameter Extraction Methods: An Appraisal for Clinical Applications., , , , и . Sensors, 14 (12): 22940-22970 (2014)Estimation of Electrically-Evoked Knee Torque from Mechanomyography Using Support Vector Regression., , , , , и . Sensors, 16 (7): 1115 (2016)