The quadriceps muscle of knee joint modelling using neural network approach: Part 2

The quadriceps muscle of knee joint modelling using neural network approach: Part 2

Artificial neural network has been implemented in many filed, and one of the most famous estimators. Neural network has long been known for its ability to handle a complex nonlinear system without a mathematical model and has the ability to learn sophisticated nonlinear relationships provides. Theor...

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Bibliographic Details
Main Authors: Ahmad Kamaruddin, S.B (Author), Huq, M.S (Author), Kader, B.S.B.K (Author), Md Ghani, N.A (Author), Mohamed Nasir, N.B (Author), Mohamed Ramli, N. (Author)
Format: Article
Language:English
Published: Institute of Electrical and Electronics Engineers Inc. 2017
Subjects:
artificial neural network
Auto-regressive
backpropagation
Backpropagation
Backpropagation algorithms
Complex nonlinear system
Deep neural networks
Joints (anatomy)
Mean square error
Muscle
Muscle modeling
Neural network model
Neural networks
Neural systems
nonlinear autoregressive
Non-linear model
Non-linear relationships
Nonlinear systems
Planning data
quadriceps muscle
Statistical tests
Online Access:View Fulltext in Publisher
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Description
Summary:Artificial neural network has been implemented in many filed, and one of the most famous estimators. Neural network has long been known for its ability to handle a complex nonlinear system without a mathematical model and has the ability to learn sophisticated nonlinear relationships provides. Theoretically, the most common algorithm to train the network is the backpropagation (BP) algorithm which is based on the minimization of the mean square error (MSE). Subsequently, this paper displays the change of quadriceps muscle model by using fake savvy strategy named backpropagation neural system nonlinear autoregressive (BPNN-NAR) model in perspective of utilitarian electrical affectation (FES). A movement of tests using FES was driven. The data that is gotten is used to develop the quadriceps muscle model. 934 planning data, 200 testing and 200 endorsement data set are used as a part of the change of muscle model. It was found that BPNN-NARMA is suitable and efficient to model this type of data. A neural network model is the best approach for modelling nonlinear models such as active properties of the quadriceps muscle with one input, namely output namely muscle force. © 2016 IEEE.
ISBN:9781509026036 (ISBN)
DOI:10.1109/ICOS.2016.7881988

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