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What is the best method for selecting design properties for a digital filter in Matlab with the GUI sptool? More specifically, if I have a signal, how do I go about determining which filter values will yield the best solution.

Example:

For my signal A:

One possible filter could have properties:

  1. Design Method: FIR, Window
  2. Window Type: Gaussian
  3. Order: 10
  4. Fs: 100 5: Fc: 10

Another possible filter could have properties:

  1. Design Method: FIR, Window
  2. Window Type: Hamming
  3. Order: 7
  4. Fs: 64 5: Fc: 28

There are infinitely more possible filters.

I assume that one of the solutions yields a "better" answer than all others and it is that solution that I am trying to find. I know that I can try a brute force method, but I would rather not. Please suggest a methodology for selecting the filter properties that gives this "best" solution.

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"Better" in what sense? –  Hannes Ovrén Dec 8 '09 at 10:18
    
obviously when designing a filter you want to improve the signal by removing the noise without distorting the signal too much. "Better" simply is the resulting signal that removes sufficient noise and keeps signal distortion to a minimum. As you may be able to now see, this process leaves the definition of a "better" signal open to interpretation. –  ServAce85 Dec 8 '09 at 11:25
1  
The filter parameters will depend on your noise and signal model. Knowing what the signal looks like and what the noise should look like should make it a bit easier to pick filter type and parameters. –  Hannes Ovrén Dec 8 '09 at 12:36

1 Answer 1

up vote 1 down vote accepted

You're going to have to give some details about the signal type that you want.

There are always certain tradeoffs depending on the type of filters you use. In general, you will have to at least provide us with the frequencies you are interested in, how sharp the cut off needs to be, computing requirements, and phase linearity.

In general, I will simply turn you towards the wiki page on filters: Picking filters

As you can see from the page, there are classes of filters (Take a look particularly at the Chebyshev, Butterworth, Bessel, and Elliptic models) that try to provide certain characteristics based upon what you need. You should also note the computational complexity of each type of filter.

Personally, I'm lazy and not usually computationally limited so I just do:

signal -> FFT -> multiply with desired frequency response -> IFFT.

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