How to build and use a LowPass (or HighPass) Filter in real-time in a time domain simulation?
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I'm new to control aspects and have not worked with filters before. I've been reading up on the documentation provided by Matlab regarding the filters but I'm not sure if I can or know enough to implement a filter to get the desired outcome. The problem is as follows.
I'm simulating motion of a body in time-domain, where I solve ODEs in a for loop at every time step (using rk4 approach). Within the for loop at each time step, I calculate certain coefficients and use them as inputs in solving the ODEs in my rk4 scheme. One of these coefficients (say alpa) turned out to be very oscillatory with more than one frequency. Following is an illustration of that parameter.
I suppose using a filter to get rid of the noise would be the solution here. However, I don't know how to read the value of alpha at each time step, filter the noise and use the filtered alpha as an input to the ODE system. How can I go around this?
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영준
on 21 Feb 2024
Edited: 영준
on 21 Feb 2024
The transfer function for the first LPF is represented as follows
Where, is the cut-off frequency, and S is the variable in the Laplace transform. In real-time systems, this needs to be converted to discrete time. The first-order LPF at discrete time can be simply expressed in the following form
where x[n] is the current input value,
y[n] is the current output value,
where y[n-1] is the previous output value,
α is a factor that determines the strength of the filter, and the time constant
τ and the sampling period
T to calculate it.
I think you can continue to get new inputs in this way and filter them by inputting the measured alpha value into the LPF according to the above formula. And if you adjust the cutoff frequency appropriately while simulating, you should be able to see the filtered signal with a slight delay.
I've never used latex before, so my answers may be terrible, sorry.
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