在 matlab中进行计算gabor filter,自己一步步的构建滤波器矩阵:
先构建gabor滤波器,然后和需要进行滤波的图像进行卷积
代码中的size用来确定gabor filter卷积模板窗口大小。但是这里的size的卷积模板有点偏小,一般都是乘上个系数,或者4或者8.
% GABORFILTER Bi-dimensional Gabor filter with DC component compensation.
% [G,GABOUT]=GABORFILTER(I,S,F,W,P) filters the input image I with the 2D
% Gabor filter G described by the parameters S, F, W and P to create the
% output filtered image GABOUT.
% This version of the 2D Gabor filter is basically a bi-dimensional
% Gaussian function centered at origin (0,0) with variance S modulated by
% a complex sinusoid with polar frequency (F,W) and phase P described by
% the following equation:
%
% G(x,y,S,F,W,P)=k*Gaussian(x,y,S)*(Sinusoid(x,y,F,W,P)-DC(F,S,P)),
% where:
% Gaussian(x,y,S)=exp(-pi*S^2*(x^2+y^2))
% Sinusoid(x,y,F,W,P)=exp(j*(2*pi*F*(x*cos(W)+y*sin(W))+P)))
% DC(F,S,P)=exp(-pi*(F/S)^2+j*P)
%
% PS: The term DC(F,S,P) compensates the inherent DC component produced
% by the Gaussian envelop as shown by Movellan in [1].
%
% Tips:
% 1) To get the real part and the imaginary part of the complex
% filter output use real(gabout) and imag(gabout), respectively;
%
% 2) To get the magnitude and the phase of the complex filter output
% use abs(gabout) and angle(gabout), respectively.
%
% References:
% [1] Movellan, J. R. - Tutorial on Gabor Filters. Tech. rep., 2002.
function [G,GABOUT]=gabor_a(I,S,F,W,P)
if isa(I,'double')~=1
I=double(I);
end
size=fix(1.5/S); % exp(-1.5^2*pi) < 0.1%
%k=2*pi*S^2;
%F=S^2/sqrt(2*pi);
k=1;
for x=-size:size
for y=-size:size
G(size+x+1,size+y+1)=k*exp(-pi*S^2*(x*x+y*y))*...
(exp(j*(2*pi*F*(x*cos(W)+y*sin(W))+P))-exp(-pi*(F/S)^2+j*P));
end
end
GABOUT=conv2(I,double(G),'same');