Background The COVID-19 pandemic has caused major disruptions worldwide since March 2020. The experience of the 1918 influenza pandemic demonstrated that decreases in the infection rates of COVID-19 do not guarantee continuity of the trend. Objective The aim of this study was to develop a precise spread model of COVID-19 with time-dependent parameters via deep learning to respond promptly to the dynamic situation of the outbreak and proactively minimize damage. Methods In this study, we investigated a mathematical model with time-dependent parameters via deep learning based on forward-inverse problems. We used data from the Korea Centers for Disease Control and Prevention (KCDC) and the Center for Systems Science and Engineering (CSSE) at Johns Hopkins University for Korea and the other countries, respectively. Because the data consist of confirmed, recovered, and deceased cases, we selected the susceptible-infected-recovered (SIR) model and found approximated solutions as well as model parameters. Specifically, we applied fully connected neural networks to the solutions and parameters and designed suitable loss functions. Results We developed an entirely new SIR model with time-dependent parameters via deep learning methods. Furthermore, we validated the model with the conventional Runge-Kutta fourth order model to confirm its convergent nature. In addition, we evaluated our model based on the real-world situation reported from the KCDC, the Korean government, and news media. We also crossvalidated our model using data from the CSSE for Italy, Sweden, and the United States. Conclusions The methodology and new model of this study could be employed for short-term prediction of COVID-19, which could help the government prepare for a new outbreak. In addition, from the perspective of measuring medical resources, our model has powerful strength because it assumes all the parameters as time-dependent, which reflects the exact status of viral spread.
【저자키워드】 COVID-19, deep learning, Spread, outbreak, modeling, neural networks, epidemic models, SIR models, time-dependent parameters, 【초록키워드】 pandemic, COVID-19 pandemic, media, prevention, Italy, viral spread, Engineering, Control, infection rate, methodology, parameters, Korean, Deceased, Science, Government, Medical resources, problems, Perspective, help, center, functions, parameter, deep learning methods, The United States, System, objective, decrease, Johns Hopkins University, Result, selected, develop, caused, reported, addition, investigated, evaluated, applied, demonstrated, respond, reflect, mathematical, 1918 influenza, used data, 【제목키워드】 validation, Model, development, deep,