Dinámica de Sistemas: Estructuras genéricas (Crecimiento en forma de S) HD

Growth Dynamics and Simulation of Populations

Introduction to Growth Structures

• The tutorial begins with an overview of growth structures, specifically the "S-shaped" or sigmoid growth curve, which illustrates how populations grow over time.

• Initially, growth is exponential until it reaches an inflection point where the curve approaches equilibrium.

Examples of Sigmoid Growth

• Systems exhibiting this behavior include rumor propagation, new product sales, epidemics, and populations in limited resources.

• A simulation will be created to demonstrate population growth under limiting factors using a model for rabbit populations in confined areas.

Model Creation for Population Simulation

• The simulation parameters are set: initial time at zero years and final time at one hundred years with a time step of 0.625 years.

• Key variables include:

• Initial rabbit population set to 1

• Birth rate defined as normal births per year (1.5)

• Mortality rates based on life expectancy.

Population Dynamics Equations

• The model incorporates equations for birth and death rates:

• Birth rate calculated as a function of current population density.

• Death rate determined by the ratio of current population to life expectancy.

Feedback Loops in Population Growth

• Initially, positive feedback from births dominates leading to exponential growth; however, as resources become scarce, negative feedback from deaths becomes more significant.