I Read the image 'abc.jpg' im MATLAB and covert its data type to double.Display the image.
Store the size of image in M and N. All the loops of x, y, u and v runs till image size.
Now I want to know
1:how Multiply the above input image by (-1)^x+y To Center the Transform To U = M/2 And V = N/2.
2:multiply it with ideal HPF(High Pass Filter) with value of D=50. where D is the radius size of Ideal HPF.
After Multiplying with Ideal HPF the resulting image will look like this.
Since you placed a bounty, I wrote an enhanced reply.
I should mention that you might want to consider using an appropriate window filter before calculating your fft to avoid border artifacts (I included this option in the code below). I hope it helps.
Here is a suggestion for your code:
a=rgb2gray(imread('abc.jpg'))
D=50;
[x y i]=size(a);
Generating a Hanning window to suppress border artifacts: (optional)
hannx = hann(x); hanny = hann(y);
Hann = hannx * hanny';
Calculating the 2D fft of the weighted image: (remove .*Hann if you don't want it)
FreqDomain=fftshift(fft2(a.*Hann));
Generating a disc-shaped binary mask with radius D:
Mask = fspecial('disk',D)==0;
Mask = imresize(padarray(Mask, [floor((x/2)-D) floor((y/2)-D)], 1, 'both'), [x y]);
Masking the frequency domain image:
MaskedFFT=FreqDomain.*Mask;
Computing inverse FFT:
Filtereda=ifft2(MaskedFFT, 'symmetric');
Note that the code assumes D is smaller than x/2 and y/2
An ideal HPF is a 0-1 filter that reduce to zero all frequencies lower than D.
>> sz = size( a ); % size of image, assuming image is gray-level and not color
>> [u v] = meshgrid( .5 * linspace( -sz(1), sz(1), sz(1) ),...
.5 * linspace( -sz(2), sz(2), sz(2) ) ); % construct the grid for the freq domain
>> hpf = ifftshift( sqrt( u.^2 + v.^2 ) <= D ); % construct the filter
>> A = fft2( a );
>> fA = A.*hpf; % apply the filter in freq domain
>> fa = abs( ifft2( fA ) ); % back to image domain
I'm not sure to understand exactly what you want to do, but it seems like you're trying to implement a high pass filter based on a FFT.
That is how I would proceed:
a=imread('abc.jpg')
FreqDomain=fftshift(fft(a));
(fftshift is centering the 0 frequency component)
And then crop FreqDomain to whichever cutoff you like, and apply ifft to the cropped image.
n1=rgb2gray(imread('fin.jpg')); imshow(n1); F=fft2(double(n1));%Calculate Size of Image
[M,N]=size(F);%Distance Radius Size
D0=50; n=2; u=0:(M-1); v=0:(N-1); idx=find(u>M/2); u(idx)=u(idx)-M; idy=find(v>N/2); v(idy)=v(idy)-N; [V,U]=meshgrid(v,u);
%Distance Calculation for High Pass Filter using Distance Formula
D=sqrt(U.^2+V.^2); H=double(D>D0); subplot(2,1,1); imshow(fftshift(H)); G=H.*F; g=real(ifft2(double(G))); [a,b]=size(g); for x=1:a for y=1:b sharpen_image(x,y)=(g(x,y))*(-1)^((x)+(y)); end end figure imshow(sharpen_image);
OUTPUT
来源:https://stackoverflow.com/questions/19703238/transformation-with-high-pass-filter