Jaya Spider Monkey Optimization-driven Deep Convolutional LSTM for the prediction of COVID’19

IF 1.2 Q3 Computer Science

Bio-Algorithms and Med-Systems Pub Date : 2020-11-12 DOI:10.1515/bams-2020-0030

S. Chander, Vijaya Padmanabha, Joseph Mani

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引用次数: 9

Abstract

Abstract COVID’19 is an emerging disease and the precise epidemiological profile does not exist in the world. Hence, the COVID’19 outbreak is treated as a Public Health Emergency of the International Concern by the World Health Organization (WHO). Hence, an effective and optimal prediction of COVID’19 mechanism, named Jaya Spider Monkey Optimization-based Deep Convolutional long short-term classifier (JayaSMO-based Deep ConvLSTM) is proposed in this research to predict the rate of confirmed, death, and recovered cases from the time series data. The proposed COVID’19 prediction method uses the COVID’19 data, which is the trending domain of research at the current era of fighting the COVID’19 attacks thereby, to reduce the death toll. However, the proposed JayaSMO algorithm is designed by integrating the Spider Monkey Optimization (SMO) with the Jaya algorithm, respectively. The Deep ConvLSTM classifier facilitates to predict the COVID’19 from the time series data based on the fitness function. Besides, the technical indicators, such as Relative Strength Index (RSI), Rate of Change (ROCR), Exponential Moving Average (EMA), Williams %R, Double Exponential Moving Average (DEMA), and Stochastic %K, are extracted effectively for further processing. Thus, the resulted output of the proposed JayaSMO-based Deep ConvLSTM is employed for COVID’19 prediction. Moreover, the developed model obtained the better performance using the metrics, like Mean Square Error (MSE), and Root Mean Square Error (RMSE) by considering confirmed, death, and the recovered cases of COVID’19 for China and Oman. Thus, the proposed JayaSMO-based Deep ConvLSTM showed improved results with a minimal MSE of 1.791, and the minimal RMSE of 1.338 based on confirmed cases in Oman. In addition, the developed model achieved the death cases with the values of 1.609, and 1.268 for MSE and RMSE, whereas the MSE and the RMSE value of 1.945, and 1.394 is achieved by the developed model using recovered cases in China.

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基于Jaya Spider Monkey优化驱动的深度卷积LSTM预测COVID ' 19

COVID - 19是一种新兴疾病，全球尚不存在精确的流行病学概况。因此，新冠肺炎疫情被世界卫生组织(WHO)定为“国际关注的突发公共卫生事件”。因此，本研究提出了一种有效且最优的COVID - 19预测机制，即基于Jaya蜘蛛猴优化的深度卷积长短期分类器(JayaSMO-based Deep ConvLSTM)，从时间序列数据中预测确诊率、死亡率和康复率。新冠肺炎预测方法利用了当前抗击新冠肺炎攻击的研究趋势领域COVID - 19数据，从而减少了死亡人数。本文提出的JayaSMO算法是将蜘蛛猴优化(SMO)算法与Jaya算法相结合而设计的。Deep ConvLSTM分类器便于基于适应度函数从时间序列数据中预测COVID ' 19。此外，对相对强弱指数(RSI)、变化率(ROCR)、指数移动平均线(EMA)、Williams %R、双指数移动平均线(DEMA)、随机%K等技术指标进行了有效提取，以供进一步处理。因此，所提出的基于jayasmo的深度ConvLSTM的结果输出用于COVID ' 19预测。此外，考虑中国和阿曼的确诊病例、死亡病例和康复病例，采用均方误差(MSE)和均方根误差(RMSE)等指标，所建立的模型获得了更好的性能。因此，基于jayasmo的Deep ConvLSTM的最小均方根误差为1.791，基于阿曼确诊病例的最小均方根误差为1.338。此外，所建立的模型对死亡病例的MSE和RMSE分别为1.609和1.268，而对中国恢复病例的MSE和RMSE分别为1.945和1.394。

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来源期刊

Bio-Algorithms and Med-Systems MATHEMATICAL & COMPUTATIONAL BIOLOGY-

CiteScore

3.80

自引率

0.00%

发文量

期刊介绍： The journal Bio-Algorithms and Med-Systems (BAMS), edited by the Jagiellonian University Medical College, provides a forum for the exchange of information in the interdisciplinary fields of computational methods applied in medicine, presenting new algorithms and databases that allows the progress in collaborations between medicine, informatics, physics, and biochemistry. Projects linking specialists representing these disciplines are welcome to be published in this Journal. Articles in BAMS are published in English. Topics Bioinformatics Systems biology Telemedicine E-Learning in Medicine Patient''s electronic record Image processing Medical databases.