# Difference between filter and conv in MATLAB

I have a MATLAB question: I am trying to calculate the output of a LTI system and i came accross two different MATLAB functions that are supposed to be appropriate for the job, `filter` and `conv`. What is the difference between the two of them?

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`filter` can handle FIR and IIR systems, while `conv` takes two inputs and returns their convolution. So `conv(h,x)` and `filter(h,1,x)` would give the same result. The 1 in filter indicates that the recursive coefficients of the filter are just `[1]`. But if you have an IIR filter, you can't use `conv`. `filter` can also return the filter states, so that it can be used in subsequent calls without incurring filter transients.

See the conv and filter documentation for details.

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so as far as i got it from what i read, if it's an IIR system and i use `conv`, i will get the right output only for an amount of samples equals to the length of `h`. Is that correct? – nikos Dec 6 '11 at 17:21
Consider the filter `H(z) = [1 - 2z^-1 + z^-2]/[1 - z^-1]`. If you set the input to `x = [1 0 0 0]`, you'll get the results `[1 -2 1 0]` with `conv([1,-2,1],x)` and `[1 -1 0 0]` with `filter([1,-2,1],[1,-1],x)`. – mtrw Dec 6 '11 at 18:47
Actually `conv(b,x)` and `filter(b,1,x)` are not exactly the same. `filter` will give you an output with same length as `x`, while `conv` will give an output with length of `length(x)+length(b)-1`. – LWZ Nov 13 '15 at 16:36

`conv(x,b)` performs the complete convolution. The length of the result is `length(x)+ length(b)-1`. `filter(b,[1],x)` gives an output of the same length than `x`. It doesn’t flush the delay line of the filter.

Assume `x` is a row vector. Make `x0 = [x zeros(1,length(b)-1)]`; now `filter(b,[1],x0)` is the same as `conv(x,b)`. This is because the additional 0’s are used to flush the delay line.

Which one is more reasonable? It depends of what you need!

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