Hyeon-Min Shim scite author profile

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.

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A powered wheelchair controller based on master-slave control architecture

Shim

Hong

Chung

et al.

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Split and merge algorithm for deep learning and its application for additional classes

Shim

Na³

et al. 2015

Pattern Recognition Letters

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Development of the Walking Assistant Robot for the Elderly

Shim

Ryu

Kwon

et al. 2007

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Hyeon-Min Shim

Multi-channel electromyography pattern classification using deep belief networks for enhanced user experience

EMG Pattern Classification by Split and Merge Deep Belief Network

A powered wheelchair controller based on master-slave control architecture

Split and merge algorithm for deep learning and its application for additional classes

Development of the Walking Assistant Robot for the Elderly

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