As of January 19, 2021, the cumulative number of people infected with coronavirus disease-2019 (COVID-19) in the United States has reached 24,433,486, and the number is still rising. The outbreak of the COVID-19 epidemic has not only affected the development of the global economy but also seriously threatened the lives and health of human beings around the world. According to the transmission characteristics of COVID-19 in the population, this study established a theoretical differential equation mathematical model, estimated model parameters through epidemiological data, obtained accurate mathematical models, and adopted global sensitivity analysis methods to screen sensitive parameters that significantly affect the development of the epidemic. Based on the established precise mathematical model, we calculate the basic reproductive number of the epidemic, evaluate the transmission capacity of the COVID-19 epidemic, and predict the development trend of the epidemic. By analyzing the sensitivity of parameters and finding sensitive parameters, we can provide effective control strategies for epidemic prevention and control. After appropriate modifications, the model can also be used for mathematical modeling of epidemics in other countries or other infectious diseases.
【저자키워드】 COVID-19, mathematical model, control strategies, parameter estimate, sensitive analysis, 【초록키워드】 coronavirus, Diseases, Epidemics, Transmission, sensitivity, Epidemic, Health, Characteristics, outbreak, epidemiological data, parameters, predict, COVID-19 epidemic, basic reproductive number, modifications, cumulative, parameter, Global Sensitivity Analysis, Affect, country, effective, the epidemic, affected, evaluate, significantly, the United State, adopted, reached, mathematical, rising, calculate, 【제목키워드】 Strategy, modeling, Control, the United State,