1

I want to add gaussian noise to a 256x256 greyscale image and then remove it. I tried doing using the following code but all I get is an image which has noise alone. Is it possible to completely remove the noise from the image? And if not to what extent can gaussian noise be reduced?

 P =0;  %mean
 Q =0.01; %variance
 R = imnoise(L,'gaussian',P,Q); %L-image
 subplot(2,1,1);
 imshow(R);
 title('Gaussian Noise');

 U = conv2(double(R), ones(3)/9, 'same');
 U1=uint8(U);
 subplot(2,1,2);
 imshow(U1);
 title('Median Filtered Image');

I'm planning to implement addition and removal of Poisson noise and Salt and pepper noise as well. Kindly suggest me if there is a filter to remove these noises too. Please help. Thanks in advance.

  • I know this doesn't quite answer the question, as for a different approach, could you just store the original unmodified image into a different variable or file? – Alex Nov 2 '14 at 16:46
  • @AlexB yes sir it sure can be stored in a different variable. – Abirami Anbalagan Nov 2 '14 at 16:52
5

Judging from the context of your comments and the question you're asking, you wish to completely remove the noise from an already corrupted image. You can only do a complete removal if you know the impulse response / point spread function (PSF) of the noise input process in the first place. Knowing the PSF and doing a noise removal with this is commonly known as deconvolution. Because the PSF of a random noise process is seldom known in practice and the fact that noise is a random process, it is practically impossible to completely remove all the noise. There are certainly models of noise that exist, but knowing the exact parameters of the noise model that corrupted your image is very difficult (if not, impossible...) to determine.

You can certainly remove most of it and you will not get the original image back, but you can mitigate the noise through standard noise filtering techniques. To remove Gaussian noise, you can simply use any standard low-pass filtering method, such as average filtering or Gaussian filtering. You can also use Wiener filtering where it is an adaptive filter. It analyzes the pixel neighbourhoods of your image and computes the variance of each neighbourhood. If the variance is small, more smoothing is performed and vice-versa. Take a look at this link for a good example.


Now, in your code you have posted, you have opted to use conv2. One small thing I will point out is that your filtering code does not do median filtering. You are implementing an average filter. If you want to use median filtering, use medfilt2 instead.

In any case, though conv2 is great for any 2D signal in general, I would recommend you use imfilter instead. It is specifically designed to filter images (linear filtering actually...), and it also takes advantage of the Intel's IPP library should your computer / processor support its use. I tried running your code (using conv2) on my machine with the standard cameraman.tif image and I get an output that isn't blank as mentioned in your comments. My guess is that you're getting a blank image due to the casting to uint8. L was most likely converted to a double precision image that ranges between [0,1] and when you simply cast to uint8, you'll only get an image that has intensities of 0 or 1 which is why you don't see anything. Try converting your image using im2uint8 so that you can contrast normalize the intensities to [0,255] instead for suitable display with imshow.

However, if you use imfilter, there is no need to convert types as imfilter will respect whatever the type of the input image was and will use that same type for the output image. As such, make your code look something like this:

L = imread('cameraman.tif'); %// Load in image from MATLAB system path 
P =0;  %mean
Q =0.01; %variance
R = imnoise(L,'gaussian',P,Q); %L-image
subplot(2,1,1);
imshow(R);
title('Gaussian Noise');

U = imfilter(R, ones(3)/9, 'replicate');   %// Change - Use imfilter
subplot(2,1,2);
imshow(U);
title('Average Filtered Image'); %// Changed title to be correct

This is what I get:

enter image description here


Now, to answer your questions about the different kinds of noise you want to filter, Poisson noise can be filtered by low-pass filters as well (average, Gaussian, etc.). Salt and pepper noise is best filtered with median filtering. Here's a great example on how median filtering works for salt and pepper noise.

As to what "extent" you can remove the noise, that totally depends on trial and error. You simply have to keep filtering your image with different filter sizes and parameters until you get what you believe is perceptually good quality or using the image with the highest PSNR out of all of your trials. Obviously, the more noisy your image is, the more aggressive you need to make your filter, but you risk not being able to recognize what the original image looked like in the first place.

This is mostly a trial and error process, so you'll have to play around with the parameters and see what you get.


I hope this has adequately answered your questions. Good luck!

  • sir thanks a lot u're a life saver. I got the results. i'll change the value of the parameters to get better results. – Abirami Anbalagan Nov 2 '14 at 18:01
  • @AbiramiAnbalagan - You're welcome. Good luck! – rayryeng - Reinstate Monica Nov 2 '14 at 18:03
  • 1
    +1 Very good explanation you said it all! – Benoit_11 Nov 2 '14 at 18:46
  • @Benoit_11 - Merci mon ami :) Vous savez qu'il neige à Toronto maintenant? C'est trop tôt pour moi! – rayryeng - Reinstate Monica Nov 2 '14 at 18:50
  • 1
    @Benoit_11 - ahahaha, well you will get it soon my friend :) – rayryeng - Reinstate Monica Nov 3 '14 at 4:46
0

Based on your comment it seems acceptable to save the original, unmodified image data from imread() into a separate array variable, which is used when the image with the noise completely removed is needed.

  • Sir i need to remove the noise from the noisy image and find the PSNR. – Abirami Anbalagan Nov 2 '14 at 17:19
  • 1
    I thought you said it was acceptable to store it in a different variable? – Alex Nov 2 '14 at 17:26
  • @AlexB - I think the OP is confused. I believe they want to try and completely remove the noise from an already corrupted image, which is impossible. – rayryeng - Reinstate Monica Nov 2 '14 at 17:27
  • @rayryeng yes sir this is exactly what i need to do. if not completely atleast to an extent i want to remove the noise. all i get is a complete black image with noise alone. With reference to a few posts from SO i thought after noise removal the output might be the original image with some noise in it. I'm unable to find where i went wrong in the code. – Abirami Anbalagan Nov 2 '14 at 17:32
  • Don't use conv2 when image filtering. Use imfilter instead. I'm writing a post. Please give me a moment. – rayryeng - Reinstate Monica Nov 2 '14 at 17:33

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.