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Aide de Scilab >> Traitement du Signal > Filtrage > filter

filter

filters a data sequence using a digital filter

Syntax

`[y,zf] = filter(B, A, x [,zi])`

Arguments

B

real vector : the coefficients of the filter numerator in decreasing power order, or a polynomial.

A

real vector : the coefficients of the filter denominator in decreasing power order, or a polynomial.

x

real row vector : the input signal

zi

real row vector of length `max(length(a),length(b))-1`: the initial condition relative to a "direct form II transposed" state space representation. The default value is a vector filled with zeros.

y

real row vector : the filtered signal.

zf

real row vector : the final state. It can be used to filter a next batch of the input signal.

Description

This function filters a data sequence using a digital filter using a "direct form II transposed" implementation.

The filter canonical form is :

The algorithm uses the highest degree between `degree(a)` and `degree(b)` as value for `n`.

If the polynomial form is used for `B` (resp. for `A`) then a polynomial or a scalar must be used for `A` (resp. `B`).

References

Oppenheim, A. V. and R.W. Schafer. Discrete-Time Signal Processing, Englewood Cliffs, NJ: Prentice-Hall, 1989, pp. 311-312.

Examples

```x = [1 zeros(1,9)]
h = [0 0 1];
res = filter(h, 1, x) //This creates a delay of 2 elements

z = poly(0, "z");
B = 1;
A = z^2;
// B/A is z^(-2)
// the resulting filter is also a delay of 2 elements
res = filter(B, A, x)

//Integrator filter
x = ones(1,10)
B = 1;
A = [1 -1];
res = filter(B, A, x)```

See also

• flts — time response (discrete time, sampled system)
• rtitr — discrete time response (transfer matrix)
• ltitr — discrete time response (state space)
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