Location
CoLab, OCB 100
Start Date
25-4-2024 9:00 AM
Document Type
Poster
Description
In nature, many different animal populations are affected by the pursuit of predators. Likewise, animals who are predators themselves are affected by the status of their prey. By using dynamical systems based on the way different species interact with each other over time, we can model and predict the changes in predator and prey populations. The goal of this work is to describe the process of predator and prey population modeling using a dynamical system of differential equations, with highlights on aspects such as the state, control variables, and parameters of the system.
Image
Predator and Prey: Mathematical Modeling of Animal Populations
CoLab, OCB 100
In nature, many different animal populations are affected by the pursuit of predators. Likewise, animals who are predators themselves are affected by the status of their prey. By using dynamical systems based on the way different species interact with each other over time, we can model and predict the changes in predator and prey populations. The goal of this work is to describe the process of predator and prey population modeling using a dynamical system of differential equations, with highlights on aspects such as the state, control variables, and parameters of the system.
Comments
The faculty mentor for this project was Brenda Edmonds, Mathematics.