- If your goal is to fit your data to the Lorenz model or compare it, you'll need to analyze your data to identify which variables and parameters correspond to x, y, z, sigma, rho, and beta.
- If your data comes from a simulation or an experiment, consider how the measurements or state variables relate to the Lorenz system's variables. You might need to perform parameter estimation or optimization to find the best match.
How to convert state space equations to lorenz form?
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I have a set of data which I have converted to state space form.I want to represent it in Lorenz form.How do I do it?
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Answers (1)
Yash
on 8 May 2024
Hi Prathvi,
Assuming you have a set of data or a model you want to fit into this form, the process involves defining the Lorenz equations in MATLAB and then using your data with these equations.
Given below is a basic approach:
1. Define the Lorenz System: Create a function that defines the Lorenz differential equations.
function dxdt = lorenz_system(t, x, sigma, rho, beta)
dxdt = [sigma*(x(2) - x(1));
x(1)*(rho - x(3)) - x(2);
x(1)*x(2) - beta*x(3)];
end
2. Parameters and Initial Conditions: Set the parameters (sigma, rho and beta) and initial conditions for the system.
sigma = 10;
rho = 28;
beta = 8/3;
x0 = [1; 1; 1]; % Initial condition [x(0), y(0), z(0)]
3. Solve the System: Use MATLAB's ODE solvers (like ode45) to simulate the system over a time interval.
[t, x] = ode45(@(t, x) lorenz_system(t, x, sigma, rho, beta), [0, 100], x0);
Adapting Your Data to the Lorenz Form:
Hope this helps!
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