I am brand new to MATLAB but am trying to do some image compression code for grayscale images.

**Questions**

How can I use SVD to trim off low-valued eigenvalues to reconstruct a compressed image?

**Work/Attempts so far**

My code so far is:

```
B=imread('images1.jpeg');
B=rgb2gray(B);
doubleB=double(B);
%read the image and store it as matrix B, convert the image to a grayscale
photo and convert the matrix to a class 'double' for values 0-255
[U,S,V]=svd(doubleB);
```

This allows me to successfully decompose the image matrix with eigenvalues stored in variable S.

How do I truncate S (which is 167x301, class double)? Let's say of the 167 eigenvalues I want to take only the top 100 (or any n really), how do I do that and reconstruct the compressed image?

**Updated code/thoughts**

Instead of putting a bunch of code in the comments section, this is the current draft I have. I have been able to successfully create the compressed image by manually changing N, but I would like to do 2 additional things:

1- Show a pannel of images for various compressions (i/e, run a loop for N = 5,10,25, etc.)

2- Somehow calculate the difference (error) between each image and the original and graph it.

I am horrible with understanding loops and output, but this is what I have tried:

`B=imread('images1.jpeg');`

B=rgb2gray(B);

doubleB=im2double(B);%

%read the image and store it as matrix B, convert the image to a grayscale

%photo and convert the image to a class 'double'

[U,S,V]=svd(doubleB);

C=S;

for N=[5,10,25,50,100]

C(N+1:end,:)=0;

C(:,N+1:end)=0;

D=U*C*V';

%Use singular value decomposition on the image doubleB, create a new matrix

%C (for Compression diagonal) and zero out all entries above N, (which in

%this case is 100). Then construct a new image, D, by using the new

%diagonal matrix C.

imshow(D);

error=C-D;

end

Obviously there are some errors because I don't get multiple pictures or know how to "graph" the error matrix