Litcius/Paper detail

A COVID-19 time series forecasting model based on MLP ANN

Pedro Henrique Borghi, Oleksandr Zakordonets, João Paulo Teixeira

2021Procedia Computer Science90 citationsDOIOpen Access PDF

Abstract

With the accelerated spread of COVID-19 worldwide and its potentially fatal effects on human health, the development of a tool that effectively describes and predicts the number of infected cases and deaths over time becomes relevant. This makes it possible for administrative sectors and the population itself to become aware and act more precisely. In this work, a machine learning model based on the multilayer Perceptron artificial neural network structure was used, which effectively predicts the behavior of the series mentioned in up to six days. The model, which is trained with data from 30 countries together in a 20-day context, is assessed using global and local MSE and MAE measures. For the construction of training and test sets, four time series (number of: accumulated infected cases, new cases, accumulated deaths and new deaths) from each country are used, which are started on the day of the first confirmed infection case. In order to soften the sudden transitions between samples, a moving average filter with a window size 3 and a normalization by maximum value were used. It is intended to make the model's predictions available online, collaborating with the fight against the pandemic.

Topics & Concepts

Computer scienceCoronavirus disease 2019 (COVID-19)Artificial neural networkNormalization (sociology)Artificial intelligenceTime seriesMultilayer perceptronMachine learningPerceptronContext (archaeology)Filter (signal processing)PopulationPandemicDemographyInfectious disease (medical specialty)SociologyAnthropologyBiologyPaleontologyDiseaseComputer visionMedicinePathologyCOVID-19 diagnosis using AICOVID-19 epidemiological studiesAnomaly Detection Techniques and Applications