FFT resolution and RelaTol and AbsTol
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Sofiane
el 20 de En. de 2024
Comentada: Sulaymon Eshkabilov
el 20 de En. de 2024
so my question is simple, I modeled an induction motor with an inter-turn short circuit i used a code not in Simulink, so i used ODE 45 with a linear vector tspan ('t_init:step:t_final'), so i noticed that when i increase RelTol (to 1e-3) and AbsTol (to 1e-8) i see new frequencies in my FFT that i dont see when i use tight tolerences like ('1e-6' ans 1e-10'), my question is why i see new frequencies (numerical noise ?), and what is the best solution to have more accurate results?
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Sulaymon Eshkabilov
el 20 de En. de 2024
There are several critical points to consider here:
Numerical Noise. Higher tolerances of the ODE solvers may take larger steps, and in regions with rapidly changing dynamics; however, tighter tolerances may not capture the whole system behavior accurately. This can result in numerical noise and the appearance of spurious frequencies in the FFT.
To address the accuracy issues of numerical simulations:
(1) Refine a time step: Instead of drastically increasing tolerances, you might consider refining the time stepping in regions of interest. Consider a variable step solver that will take variable step algorithms which can automatically adjust the step size based on the local behavior of the system.
(2) Test Higher-Order Solvers, e.g. ODE113 and also, stiff solvers (e.g., ODE15s) which may be more suitable for stiff systems.
(3) Double-check Initial Conditions: In some unstable or very dynamic systems, small changes in initial conditions can lead to significant behavior changes.
All the best.
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