Stegnaography using DCT
3 Ansichten (letzte 30 Tage)
Ältere Kommentare anzeigen
Pranoy
am 29 Jan. 2012
Kommentiert: Ajmal Mohammed V M
am 13 Mai 2022
this is the code we are using to implement steganography based on DCT....
I = imread('lena_std.jpg');
I = im2double(I(:,:,1));
I2=imread('test.bmp');
subplot(2,2,1),imshow(I);
subplot(2,2,2),imshow(I2);
I2=de2bi(I2(:,:,1));
x=reshape(I2',1,38400);
T = dctmtx(8);
dct = @(x)T * x * T';
B = blkproc(I,[8 8],dct);
k=0;
for i=1:256
for j=1:256
if B(i,j)>0
b=dec2bin(typecast(single(B(i,j)),'uint32'),32);
b(1,7:8)=x(1,k*2+1:k*2+2);
k=k+1;
c=double(typecast(uint32(bin2dec(b)),'single') );
B(i,j)=c;
end
end
end
subplot(2,2,3),imshow(B);
invdct = @(x)T' * x * T;
B3= blkproc(B,[2 2],invdct);
subplot(2,2,4),imshow(B3);
could somebody tell me the problem in this code with respect to the binary and decimal conversion....
2 Kommentare
Akzeptierte Antwort
Walter Roberson
am 30 Jan. 2012
You will find that de2bi() does not return the characters '0' and '1' that are required for bin2dec().
You will also find that the bit ordering is different between de2bi() and dec2bin(). Compare
dec2bin(8,5)
de2bi(8,5)
2 Kommentare
Weitere Antworten (5)
NILANJ
am 19 Apr. 2013
I2=de2bi(I2(:,:,1)); can any one tell me plz that in this function why (:,:,1) ???
1 Kommentar
Peter Eze
am 22 Dez. 2016
use transpose(dec2bin(ImageMessage(i,j))) to create the binary string for each pixel of the message to be embedded
0 Kommentare
juhi patel
am 26 Sep. 2017
de2bi()is used for you want your data in matrix form.&dec2bin() is used if you want output in string format.you are mixing both function in this code.using de2bi() will solve your problem since image is in matrix form.
1 Kommentar
Walter Roberson
am 26 Sep. 2017
I almost always use dec2bin() and subtract '0' to get matrix form. Then I do not have to worry about the fact that de2bi() is part of a communications toolbox rather than part of basic MATLAB.
Fady Samann
am 13 Jun. 2020
Bearbeitet: Fady Samann
am 12 Aug. 2020
First, you are not doing quantization to remove the samller DCT coefficients after that you can change LSB by masking it and and OR it with the message bit. Use bitwise operations, because dec2bin and bin2dec treat the binary as a string of 0's and 1's.
the process is just like JPG compression but in the middle of quantization and dequantization, you can change the LSB.
Second, when you pick the right DCT coefficient to change its LSB, the coefficient must be greater than one because of changing the LSB of one to zero (from the message bits) will set the coefficient to zero then during the decoding process this coefficient will be skipped because of the if condition (B(i,j)>0).
Note: round the number only after the quantization stage in the encoding and decoding of the message.
0 Kommentare
Siehe auch
Community Treasure Hunt
Find the treasures in MATLAB Central and discover how the community can help you!
Start Hunting!