Recursive Implementation of the Gaussian Filter

4 vues (au cours des 30 derniers jours)
Royi Avital
Royi Avital le 14 Mar 2015
Réponse apportée : Royi Avital le 15 Mar 2015
Hello,
I'm trying to implement the article "Recursive Implementation of the Gaussian Filter".
This article suggest an IIR Filter as an approximation of the Gaussian Blur. This is the suggested method:
Namely it is an order 4 IIR Filter.
I tried to reproduce the results for q = 5 as given in the article (See "Example").
Here is my code:
qFactor = 5;
b0Coeff = 1.57825 + (2.44413 * qFactor) + (1.4281 * qFactor * qFactor) + (0.422205 * qFactor * qFactor * qFactor);
b1Coeff = (2.44413 * qFactor) + (2.85619 * qFactor * qFactor) + (1.26661 * qFactor * qFactor * qFactor);
b2Coeff = (-1.4281 * qFactor * qFactor) + (-1.26661 * qFactor * qFactor * qFactor);
b3Coeff = 0.422205 * qFactor * qFactor * qFactor;
normalizationCoeff = 1 - ((b1Coeff + b2Coeff + b3Coeff) / b0Coeff);
vDenCoeff = [b0Coeff, b1Coeff, b2Coeff, b3Coeff] / b0Coeff;
vXSignal = zeros(61, 1);
vXSignal(31) = 10;
vYSignal = filter(normalizationCoeff, vDenCoeff, vXSignal);
vYSignal = filter(normalizationCoeff, vDenCoeff, vYSignal(end:-1:1));
figure();
plot(vYSignal);
I get the correct number for all coefficients, yet the result is:
What am I missing?
Has anyone managed to make it work?
Thank You.

Connectez-vous pour répondre à cette question.

Réponse acceptée

Royi Avital
Royi Avital le 15 Mar 2015
he answer was simple, the article uses the coefficients value on one hand where the MATLAB implementation on the other. Namely, a minus sign should be added.
Here's the correct code:
qFactor = 5;
b0Coeff = 1.57825 + (2.44413 * qFactor) + (1.4281 * qFactor * qFactor) + (0.422205 * qFactor * qFactor * qFactor);
b1Coeff = (2.44413 * qFactor) + (2.85619 * qFactor * qFactor) + (1.26661 * qFactor * qFactor * qFactor);
b2Coeff = (-1.4281 * qFactor * qFactor) + (-1.26661 * qFactor * qFactor * qFactor);
b3Coeff = 0.422205 * qFactor * qFactor * qFactor;
normalizationCoeff = 1 - ((b1Coeff + b2Coeff + b3Coeff) / b0Coeff);
vDenCoeff = [b0Coeff, -b1Coeff, -b2Coeff, -b3Coeff] / b0Coeff;
vXSignal = zeros(61, 1);
vXSignal(31) = 10;
vYSignal = filter(normalizationCoeff, vDenCoeff, vXSignal);
vYSignal = filter(normalizationCoeff, vDenCoeff, vYSignal(end:-1:1));
figure();
plot(vYSignal);

Plus de réponses (0)

Catégories

En savoir plus sur Image Category Classification dans Help Center et File Exchange

Tags

Produits

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!

Translated by