Author(s)

Huiyu Wang

Corresponding Author

Huiyu Wang

Abstract

This paper focuses on the dynamic analysis of infectious disease transmission and research on control strategies based on differential equation models. Firstly, it introduces the research background and significance, emphasizing the threat of infectious diseases to human health and the importance of research. Then, it elaborates on the theoretical basis of differential equation models in infectious disease research, including basic concepts, types, and key parameters. Subsequently, it conducts an in-depth analysis of the dynamic transmission of infectious diseases and explores the impacts of different factors on transmission. Based on this, it proposes control strategies based on differential equation models, covering prevention, monitoring, and emergency response. The effectiveness of the models and strategies is verified through numerical simulations. Finally, it summarizes the research results, points out the shortcomings, and looks forward to future research directions, providing theoretical support for the prevention and control of infectious diseases.

Keywords

Differential equation model; Infectious disease transmission; Dynamic analysis; Control strategy; Numerical simulation