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Article type: Research Article
Authors: Raj, Retheep* | Sivanandan, K.S.
Affiliations: Department of Electrical Engineering, National Institute of Technology Calicut, India
Correspondence: [*] Corresponding author: Retheep Raj, Department of Electrical Engineering, National Institute of Technology Calicut, India. Tel.: +91 9496452144; E-mail:[email protected]
Abstract: BACKGROUND: Estimation of elbow dynamics has been the object of numerous investigations. OBJECTIVE: In this work a solution is proposed for estimating elbow movement velocity and elbow joint angle from Surface Electromyography (SEMG) signals. METHODS: Here the Surface Electromyography signals are acquired from the biceps brachii muscle of human hand. Two time-domain parameters, Integrated EMG (IEMG) and Zero Crossing (ZC), are extracted from the Surface Electromyography signal. The relationship between the time domain parameters, IEMG and ZC with elbow angular displacement and elbow angular velocity during extension and flexion of the elbow are studied. A multiple input-multiple output model is derived for identifying the kinematics of elbow. A Nonlinear Auto Regressive with eXogenous inputs (NARX) structure based multiple layer perceptron neural network (MLPNN) model is proposed for the estimation of elbow joint angle and elbow angular velocity. The proposed NARX MLPNN model is trained using Levenberg-marquardt based algorithm. RESULTS: The proposed model is estimating the elbow joint angle and elbow movement angular velocity with appreciable accuracy. The model is validated using regression coefficient value (R). The average regression coefficient value (R) obtained for elbow angular displacement prediction is 0.9641 and for the elbow anglular velocity prediction is 0.9347. CONCLUSION: The Nonlinear Auto Regressive with eXogenous inputs (NARX) structure based multiple layer perceptron neural networks (MLPNN) model can be used for the estimation of angular displacement and movement angular velocity of the elbow with good accuracy.
Keywords: Surface electromyography, time domain features, NARX model, Levenberg-marquardt algorithm, neural network, elbow joint angular displacement, elbow angular velocity, integrated EMG, zero crossing
DOI: 10.3233/BMR-160525
Journal: Journal of Back and Musculoskeletal Rehabilitation, vol. 30, no. 3, pp. 515-525, 2017
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