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I have created a lowpass filter FIR with Matlab and get some strange zeros in the zplane when I vary the filter order.

I have used Matlabs builtin fir1 function to calculate the filter coefficients in the following way:

sampling_rate=100;
cutoff_freq = 5;
filter_order=80;
b_l=fir1(filter_order,cutoff_freq*2/sampling_rate);
zplane(b_l);

If the filter order is < 80, the zplane diagram looks like this: Zplane Diag. of lowpass filter with filter order 79

but if the filter order is >= 80 one zero is at about -6.5*10^14: Zplane Diag. of lowpass filter with filter order 80

What does Matlab do to calculate the filter coefficients and how comes that a pole is lies so far from the unit-cycle?

  • Not sure if that answers the question fully, but according to the doc on fir1, this is the reference it uses to compute the filter coefficients: Programs for Digital Signal Processing, IEEE Press, New York, 1979. Algorithm 5.2. – am304 Feb 3 '14 at 11:41
  • Thanks for the answer, but that doesn't really clarify, why the zero is so far away from the unit circle. I took the filter coefficients fir1 returned and calculated the roots with Mathematica and no root had such a big absolute value so I guess that some kind of rounding errors happen within the zplane function...but I don't really know.. – Tobi Feb 3 '14 at 13:01
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    I have tried the same code in Octave 3.8 and I don't get the same problem with the (very) negative zero. I have tried filter orders of 80, 85 and 90. – am304 Feb 3 '14 at 13:54
  • Mhm, it seems to be a bug in the Matlab implementation...if I use the code I posted, I get the plot above...if I use 85 or 90 it works. I tried different filter orders and it seems, that my previous assumption was wrong...there are low filter orders that give me such a strange pol/zero-plot (which is obviously wrong) and quite high filter orders where everything works as it should. Thank you for checking it with Octave! – Tobi Feb 3 '14 at 14:46
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Answering my own question:

The strange pole-/zero-diagram which results from executing the code in Matlab R2013a seems to be the consequences of a bug in the zplane function.

According to the comments, Octave 3.8 shows a different pole-/zero-diagram using the same code.

I used the filter coefficients created by b_l=fir1(filter_order,cutoff_freq*2/sampling_rate) to construct a polynomial and find its roots using Mathematica. Non of the roots had a big absolute value, so the plot has to be erroneous.

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