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Does anyone know if it is possible to pass previous output valuess to an FIR filter in Matlab? I would like to do this because I have masses of data (>300Gb) which I would like to filter and down sample. If I use a standard [b,a] set of coefficients in a an FIR function then the first few samples will be incorrect because they depend on the initial conditions.

This is the problem because I would like to filter my large data set by taking smaller chunks of it but if I do it using the standard way then at the beginning of every chunk there will be error (which will propagate through due to it being an FIR filter).

Any ideas will be much appreciated!

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3 Answers 3

up vote 3 down vote accepted

filter command can take initial conditions as input and return final conditions as second output. You need to use these to filter smaller chunks of your data. For example,

b = fir1(10, 0.5);
Zi = zeros(numel(b)-1,1);
while moreData
   [y Zi] = filter(b, 1, data, Zi);
end

If you have DSP System toolbox, you can also dsp.DigitalFilter System object which will manage the states for you. For example, the above code can become

b = fir1(10, 0.5);
h = dsp.DigitalFilter('TransferFunction', 'FIR (all zeros)', 'Structure', 'Direct form transposed', 'Numerator', b);
while moreData
    y = step(h, data);
end
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You could use the 'zi', 'zf' features of the 'filter' command: http://www.mathworks.com/help/techdoc/ref/filter.html

This allows you to set the initial conditions of the filter.

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I'll give this a try as see, looks promising! Thanks :-) –  mor22 Jun 6 '11 at 9:04

In such cases, you can use filtfilt, which implements a zero-phase filtering, i.e., it processes the data once forward and once backward, resulting in no net delay. However, you should note that the effective filter order is double that of what is specified by b.

Here's an example from the documentation (the plot has been modified):

x=ecg(500)'+0.25*randn(500,1); %'#noisy waveform
h=fdesign.lowpass('Fp,Fst,Ap,Ast',0.15,0.2,1,60);
d=design(h,'equiripple'); %#Lowpass FIR filter
y=filtfilt(d.Numerator,1,x); %#zero-phase filtering
y1=filter(d.Numerator,1,x); %#conventional filtering

figure(1)
h=plot([x y y1]);
set(h(1),'color',[0.8,0.8,0.8])
title('Filtered Waveforms');
legend('Original waveform', 'Zero-phase Filtering','Conventional Filtering');

enter image description here

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Yes, I know about filtfilt but this doesn't tackle the problem I'm trying to solve which is the shear quantity of the data and being able to filter it in a piece-meal fashion. –  mor22 Jun 6 '11 at 9:03
    
@mor22:I wasn't suggesting that you run the entire data through it :) I meant that if you do it piece wise and join it, this will give you what you want without the error in the beginning of the chunk. Anyway, I think using zi and zf as in the answers below are better and you should try them first. I'll just leave this here as a an alternative. –  r.m. Jun 6 '11 at 12:57

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