Hello everybody,
I'm working on my graduation project and I'm developing a filter (based on kalman filtering) in order to compensate a dynamometer's dynamic affecting high frequency measurements.
Following some other works I've been able to define the filter's continuous-time transfer function and it does exactly what it should. But now I'm facing problems applying it to measurements data.
I'll be honest, I do not know much about digital filtering and I'm quite new to matlab, but I've not been able to apply the filter with success.
In the works I've studied it's said to use the discrete equivalent of the continuous-time TF and apply it recursively at each time-step to the measurements data.
I've tried discretizing the TF with the c2d matlab's function and using the filter matlab's function to filter a simulated system-response in order to try to reconstruct the input signal, but it does not what it should.
This is the discrete-time TF that I've calculated to compensate a simple 1-dof system:
filter_discrete_tf =
-7.173 z^-1 + 7.846 z^-2
-------------------------------------------------
1 - 0.3269 z^-1 - 4.226e-20 z^-2 - 2.501e-40 z^-3
Is there a way to apply it "recursively at each time-step" to the measurements data?
Any help will be really appreciated.
I'm sorry for my bad english and my poor basis of digital filtering.
