EMG pattern classification by split and merge deep belief network

Hyeon Min Shim; Hongsub An; Sanghyuk Lee; Eung Hyuk Lee; Hong Ki Min; Sangmin Lee

doi:10.3390/sym8120148

EMG pattern classification by split and merge deep belief network

Hyeon Min Shim, Hongsub An, Sanghyuk Lee^*, Eung Hyuk Lee, Hong Ki Min, Sangmin Lee

^*Corresponding author for this work

Department of Mechatronics and Robotics

Research output: Contribution to journal › Article › peer-review

25 Citations (Scopus)

Abstract

In this paper; we introduce an enhanced electromyography (EMG) pattern recognition algorithm based on a split-and-merge deep belief network (SM-DBN). Generally, it is difficult to classify the EMG features because the EMG signal has nonlinear and time-varying characteristics. Therefore, various machine-learning methods have been applied in several previously published studies. A DBN is a fast greedy learning algorithm that can identify a fairly good set of weights rapidly-even in deep networks with a large number of parameters and many hidden layers. To reduce overfitting and to enhance performance, the adopted optimization method was based on genetic algorithms (GA). As a result, the performance of the SM-DBN was 12.06% higher than conventional DBN. Additionally, SM-DBN results in a short convergence time, thereby reducing the training epoch. It is thus efficient in reducing the risk of overfitting. It is verified that the optimization was improved using GA.

Original language	English
Article number	148
Journal	Symmetry
Volume	8
Issue number	12
DOIs	https://doi.org/10.3390/sym8120148
Publication status	Published - 2016

Keywords

Deep belief network
Deep learning
EMG pattern recognition
SM-DBN
Split and merge deep belief network

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10.3390/sym8120148

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title = "EMG pattern classification by split and merge deep belief network",

abstract = "In this paper; we introduce an enhanced electromyography (EMG) pattern recognition algorithm based on a split-and-merge deep belief network (SM-DBN). Generally, it is difficult to classify the EMG features because the EMG signal has nonlinear and time-varying characteristics. Therefore, various machine-learning methods have been applied in several previously published studies. A DBN is a fast greedy learning algorithm that can identify a fairly good set of weights rapidly-even in deep networks with a large number of parameters and many hidden layers. To reduce overfitting and to enhance performance, the adopted optimization method was based on genetic algorithms (GA). As a result, the performance of the SM-DBN was 12.06% higher than conventional DBN. Additionally, SM-DBN results in a short convergence time, thereby reducing the training epoch. It is thus efficient in reducing the risk of overfitting. It is verified that the optimization was improved using GA.",

keywords = "Deep belief network, Deep learning, EMG pattern recognition, SM-DBN, Split and merge deep belief network",

author = "Shim, {Hyeon Min} and Hongsub An and Sanghyuk Lee and Lee, {Eung Hyuk} and Min, {Hong Ki} and Sangmin Lee",

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language = "English",

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journal = "Symmetry",

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TY - JOUR

T1 - EMG pattern classification by split and merge deep belief network

AU - Shim, Hyeon Min

AU - An, Hongsub

AU - Lee, Sanghyuk

AU - Lee, Eung Hyuk

AU - Min, Hong Ki

AU - Lee, Sangmin

PY - 2016

Y1 - 2016

N2 - In this paper; we introduce an enhanced electromyography (EMG) pattern recognition algorithm based on a split-and-merge deep belief network (SM-DBN). Generally, it is difficult to classify the EMG features because the EMG signal has nonlinear and time-varying characteristics. Therefore, various machine-learning methods have been applied in several previously published studies. A DBN is a fast greedy learning algorithm that can identify a fairly good set of weights rapidly-even in deep networks with a large number of parameters and many hidden layers. To reduce overfitting and to enhance performance, the adopted optimization method was based on genetic algorithms (GA). As a result, the performance of the SM-DBN was 12.06% higher than conventional DBN. Additionally, SM-DBN results in a short convergence time, thereby reducing the training epoch. It is thus efficient in reducing the risk of overfitting. It is verified that the optimization was improved using GA.

AB - In this paper; we introduce an enhanced electromyography (EMG) pattern recognition algorithm based on a split-and-merge deep belief network (SM-DBN). Generally, it is difficult to classify the EMG features because the EMG signal has nonlinear and time-varying characteristics. Therefore, various machine-learning methods have been applied in several previously published studies. A DBN is a fast greedy learning algorithm that can identify a fairly good set of weights rapidly-even in deep networks with a large number of parameters and many hidden layers. To reduce overfitting and to enhance performance, the adopted optimization method was based on genetic algorithms (GA). As a result, the performance of the SM-DBN was 12.06% higher than conventional DBN. Additionally, SM-DBN results in a short convergence time, thereby reducing the training epoch. It is thus efficient in reducing the risk of overfitting. It is verified that the optimization was improved using GA.

KW - Deep belief network

KW - Deep learning

KW - EMG pattern recognition

KW - SM-DBN

KW - Split and merge deep belief network

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JO - Symmetry

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ER -

EMG pattern classification by split and merge deep belief network

Abstract

Keywords

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