Long Short-Term Memory Neural Networks for RNA Viruses Mutations Prediction

Mohamed, Takwa; Sayed, Sabah; Salah, Akram; Houssein, Essam H.

doi:10.1155/2021/9980347

Cited by 16 publications

(9 citation statements)

References 21 publications

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“…How accurately can we predict these mutations? Predicting the mutational pattern of a species may provide insights into the mutation process and future activity of the species and may help design potential drugs targeting the viral species. , Machine Learning techniques offer assistance for analyzing the available mutational data with several models utilizing different methods to predict the mutations in different scenarios, such as Long–Short-Term Memory (LSTM) models and Neural Networks and Rough Set theory to predict mutations in viral species, Statistical Relational Learning for generating resistant mutations in HIV reverse transcriptase inhibitors, Deep Convolutional Neural Network to classify and predict mutation from histopathology images of lung cancer, Variational Autoencoders (VAE) to examine the heterogeneity and fluctuation of chromatin structure, Interactive Interface to analyze biomedical and clinical data sets, Supervised Machine Learning Model of coarse-grained molecular dynamic force fields, and Multilayer Perceptron classifier to predict mutations in the influenza virus. As a new approach, information entropy can be utilized for data compression and transmission and to calculate the target-class imbalances in binary classification models of machine learning.…”

Section: Introductionmentioning

confidence: 99%

Quantifying Mutational Response to Track the Evolution of SARS-CoV-2 Spike Variants: Introducing a Statistical-Mechanics-Guided Machine Learning Method

et al. 2022

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The emergence of SARS-CoV-2 and its variants that critically affect global public health requires characterization of mutations and their evolutionary pattern from specific Variants of Interest (VOIs) to Variants of Concern (VOCs). Leveraging the concept of equilibrium statistical mechanics, we introduce a new responsive quantity defined as “Mutational Response Function (MRF)” aptly quantifying domain-wise average entropy-fluctuation in the spike glycoprotein sequence of SARS-CoV-2 based on its evolutionary database. As the evolution transits from a specific variant to VOC, we find that the evolutionary crossover is accompanied by a dramatic change in MRF, upholding the characteristic of a dynamic phase transition. With this entropic information, we have developed an ancestral-based machine learning method that helps predict future domain-specific mutations. The feedforward binary classification model pinpoints possible residues prone to future mutations that have implications for enhanced fusogenicity and pathogenicity of the virus. We believe such MRF analyses followed by a statistical mechanics augmented ML approach could help track different evolutionary stages of such species and identify a critical evolutionary transition that is alarming.

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Section: Introductionmentioning

confidence: 99%

Quantifying Mutational Response to Track the Evolution of SARS-CoV-2 Spike Variants: Introducing a Statistical-Mechanics-Guided Machine Learning Method

et al. 2022

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Section: Datasetsmentioning

confidence: 99%

“…Figure 4 presents the measured daily flow data of the Zhouqu hydrological station, while Figure 5 showcases the corresponding rainfall data from both the Zhouqu and Sanyanyu stations. For comparison purposes, this study utilizes the LSTM model [33,34] and the XAJ model to predict the flow of hydrological stations in Zhouqu using the same historical For comparison purposes, this study utilizes the LSTM model [33,34] and the XAJ model to predict the flow of hydrological stations in Zhouqu using the same historical flow data. The LSTM model is a commonly employed data-driven model known for its high computational accuracy and stability.…”

Section: Datasetsmentioning

confidence: 99%

A Multiple Model Approach for Flood Forecasting, Simulation, and Evaluation Coupling in Zhouqu County

Li,

Liu,

Liu

et al. 2023

Water

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Flood disasters are considered to be one of the ten natural disasters that threaten the survival of mankind. They occur frequently and have a serious impact on the national economy. For quicker response to the sudden flood, in this paper, the relevant characteristics of flood forecasting and disaster assessment are comprehensively studied to establish the corresponding models, and a multi-objective culture shuffled complex differential evolution (MOCSCDE) algorithm is proposed to optimize the model parameters. It can achieve better convergence and significantly improve the model accuracy. Then, a river hydrodynamic model is established to simulate the flooding process, and the characteristics of flood evolution, such as water depth, flow speed, duration, and submerged area, are analyzed. Third, based on the above-mentioned flood forecasting and flood evolution calculations, the relative membership function (VFS) is determined via the set pair analysis method (SPA), and the variable fuzzy set model (SPAVFS) is used for flood risk assessment. Finally, through the study of flow forecasting at Zhouqu hydrological station, it is found that the accuracy of the forecast result of the built model is best compared with LSTM and XAJ model, the mean relative error is only 7.6%, and the certainty coefficient can reach 0.96, which surpass the baselines by 20% and 7.9%.

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“…With the improvement of seq2seq [25,26], we can incorporate many factors related to earnings value into the earnings forecast model. However, many parameters still need to be manually adjusted in the entire forecast model.…”

Section: E Basic Ideamentioning

confidence: 99%

Design of Accounting Earnings Forecasting Model Based on Artificial Intelligence

Liu¹,

Shi²,

Pham

2022

Scientific Programming

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The increasing complexity of the international situation intensifies the changes of the economic environment. People’s demand for information represented by accounting earnings, such as judging the profitability and risk coefficient of the company, is becoming more and more urgent. This study puts forward the theory of predicting accounting earnings through accounting earnings factors in a nonlinear way and designs an accounting earnings forecasting model based on artificial intelligence. Integrating LSTM, seq2seq, and reinforcement learning and combining with self-attention like mechanism, a complex multifactor time series forecasting model is established, and reinforcement learning is used to stabilize the model to prevent overfitting, which puts forward a new solution to the multifactor time series forecasting problem of complex relationship. The experimental results and comparative analysis show the effectiveness of the enhanced recurrent neural network accounting earnings prediction model designed in this study.

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Long Short-Term Memory Neural Networks for RNA Viruses Mutations Prediction

Cited by 16 publications

References 21 publications

Quantifying Mutational Response to Track the Evolution of SARS-CoV-2 Spike Variants: Introducing a Statistical-Mechanics-Guided Machine Learning Method

Quantifying Mutational Response to Track the Evolution of SARS-CoV-2 Spike Variants: Introducing a Statistical-Mechanics-Guided Machine Learning Method

A Multiple Model Approach for Flood Forecasting, Simulation, and Evaluation Coupling in Zhouqu County

Design of Accounting Earnings Forecasting Model Based on Artificial Intelligence

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