Optimized Deep Learning for the Classification of Parkinson's Disease Based on Voice Features.

Q3 Engineering Critical Reviews in Biomedical Engineering Pub Date : 2022-01-01 DOI:10.1615/CritRevBiomedEng.2022041442

S Sharanyaa, Sambath M, P N Renjith

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Abstract

Parkinson's disease (PD) is a neurodegenerative disorder. Hence, there is a tremendous demand for adapting vocal features to determine PD in an earlier stage. This paper devises a technique to diagnose PD using voice signals. Initially, the voice signals are considered an input. The signal is fed to pre-processing wherein the filtering is adapted to remove noise. Thereafter, feature extraction is done that includes fluctuation index, spectral flux, spectral centroid, Mel frequency Cepstral coefficient (MFCC), spectral spread, tonal power ratio, spectral kurtosis and the proposed Exponential delta-Amplitude modulation signal (delta-AMS). Here, exponential delta-amplitude modulation spectrogram (Exponential-delta AMS) is devised by combining delta-amplitude modulation spectrogram (delta-AMS) and exponential weighted moving average (EWMA). The feature selection is done considering the extracted features using the proposed squirrel search water algorithm (SSWA), which is devised by combining Squirrel search algorithm (SSA) and water cycle algorithm (WCA). The fitness is newly devised considering Canberra distance. Finally, selected features are fed to attention-based long short-term memory (attention-based LSTM) in order to identify the existence of PD. Here, the training of attention-based LSTM is performed with developed SSWA. The proposed SSWA-based attention-based LSTM offered enhanced performance with 92.5% accuracy, 95.4% sensitivity and 91.4% specificity.

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基于语音特征的帕金森病分类的优化深度学习。

帕金森病(PD)是一种神经退行性疾病。因此，有巨大的需求适应声音特征，以确定PD的早期阶段。本文设计了一种利用语音信号诊断PD的方法。最初，语音信号被视为输入。将所述信号馈送至预处理，其中所述滤波适于去除噪声。然后，提取包括波动指数、谱通量、谱质心、Mel频退系数(MFCC)、谱展、音调功率比、谱峰度和提出的指数δ -振幅调制信号(delta-AMS)的特征。本文将δ振幅调制谱图(delta-AMS)与指数加权移动平均(EWMA)相结合，设计了指数δ振幅调制谱图(exponential -delta AMS)。结合松鼠搜索算法(SSA)和水循环算法(WCA)设计的松鼠搜索水算法(SSWA)，根据提取的特征进行特征选择。考虑到堪培拉的距离，健身是新设计的。最后，将选择的特征输入到基于注意的长短期记忆(attention-based LSTM)中，以识别PD的存在。在这里，基于注意的LSTM的训练是使用发达的SSWA进行的。基于sswa的LSTM的准确率为92.5%，灵敏度为95.4%，特异性为91.4%。

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来源期刊

Critical Reviews in Biomedical Engineering Engineering-Biomedical Engineering

CiteScore

1.80

自引率

0.00%

发文量

期刊介绍： Biomedical engineering has been characterized as the application of concepts drawn from engineering, computing, communications, mathematics, and the physical sciences to scientific and applied problems in the field of medicine and biology. Concepts and methodologies in biomedical engineering extend throughout the medical and biological sciences. This journal attempts to critically review a wide range of research and applied activities in the field. More often than not, topics chosen for inclusion are concerned with research and practice issues of current interest. Experts writing each review bring together current knowledge and historical information that has led to the current state-of-the-art.