I had taken co-relation of image with LOG filter via imfilter command.
z=imfilter(I,fspecial('log',11,1.5));
figure
imshow(z);
Image:
I had taken co-relation of image with LOG filter via imfilter command.
z=imfilter(I,fspecial('log',11,1.5));
figure
imshow(z);
Image:
Converting the image to double (double precision) will resolve the issue because imread command took the image in default unit8 (unsigned int) format.
im2double
instead of just casting as double
as im2double
will also normalize the intensities so that they fit between [0,1]
. Just casting to double
will not do this. Also, imread
loading in an image in "default" uint8
is technically not correct. The precision of each pixel is defined in the header of the image that imread
parses and examines. For example, TIF can be 8, 16 or 24 or 32 bits. It's just the majority of images out there use 8 bits per intensity / colour, so we would naturally think it's "default".
imshow
for double
type images is designed to take in intensities between [0,1]
, which get visualized to intensities between black and white. Whoever gave you the +1 vote for your comment doesn't know what they're talking about either.
The problem you have is that you are not showing the result properly.
Your result is in range 0-31, but you need to convert it to 0-255 to plot it!
do
imshow(mat2gray(z))
imshow(z, [])
, which would contrast normalize the results for display where the minimum and maximum values would map to [0,1]
. Otherwise, good spot!
double(z)
; will not solve the problem because you will have values that are beyond 1 and will saturate the image when trying to display it. Consider using im2double
instead to contrast normalize the intensities to [0,1]
.
The best way to solve this problem is not to change your image, but to change the way imshow
displays it. Try this:
>> imshow(z, [0, 31]);
Or, better yet, try this:
>> imshow(z, []);
which will re-scale the image automatically, mapping the minimum value to 0 and the maximum to 255.