Hiding a Colored Image Inside Another Colored Image
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The following code is for hiding a colored image inside another colored image using a chaotic system, but when executing the program, the image is not completely hidden. Why? What is the error in the code?
% Load the cover image and the hidden image
coverImage = imread('cover_image.jpg');
hiddenImage = imread('hidden_image.jpg');
% Get the dimensions of the images
[r, c, d] = size(coverImage);
[hr, hc, hd] = size(hiddenImage);
% Check if the number of channels matches
if d ~= hd
error('The number of channels in the hidden image must match the number of channels in the cover image.');
end
% Check if the dimensions match
if hr ~= r || hc ~= c
error('The dimensions of the hidden image must match the dimensions of the cover image.');
end
% Initialize parameters for the chaotic system
x0 = 0.1; y0 = 0.5; z0 = 3.5; w0 = 0.6; v0 = 0.4; u0 = 0.1;
n = r * c; % Total number of pixels
% Define chaotic system parameters
a = 10; b = 28; c = 8/3;
dx = 1e-4; % Step size
num_values = 10 * n; % Number of values to generate
% Initialize the chaotic variables
x = x0 * ones(1, num_values + 10000);
y = y0 * ones(1, num_values + 10000);
z = z0 * ones(1, num_values + 10000);
w = w0 * ones(1, num_values + 10000);
v = v0 * ones(1, num_values + 10000);
u = u0 * ones(1, num_values + 10000);
% Generate chaotic values using numerical integration
for ii = 2:num_values + 10001
x(ii) = x(ii-1) + dx * (a * (y(ii-1) - x(ii-1)));
y(ii) = y(ii-1) + dx * (x(ii-1) * (b - z(ii-1)) - y(ii-1));
z(ii) = z(ii-1) + dx * (x(ii-1) * y(ii-1) - c * z(ii-1));
w(ii) = w(ii-1) + dx * (v(ii-1) - w(ii-1));
v(ii) = v(ii-1) + dx * (w(ii-1) * u(ii-1) - v(ii-1));
u(ii) = u(ii-1) + dx * (w(ii-1) * v(ii-1) - c * u(ii-1));
end
% Discard the first 10000 values to avoid transient behavior
x = x(10002:end);
y = y(10002:end);
z = z(10002:end);
w = w(10002:end);
v = v(10002:end);
u = u(10002:end);
% Map chaotic values to pixel positions
x_int = mod(floor(abs(x * 1e15)), n);
y_int = mod(floor(abs(y * 1e15)), n);
% Ensure unique pixel positions
x_int_unique = unique(x_int);
y_int_unique = unique(y_int);
% Attempt to ensure enough unique positions
attempts = 0;
max_attempts = 10; % Maximum attempts to find enough unique positions
while numel(x_int_unique) < n || numel(y_int_unique) < n
attempts = attempts + 1;
if attempts > max_attempts
error('Failed to generate enough unique positions for embedding the hidden image.');
end
num_values = num_values * 2; % Double the number of values
% Reinitialize the chaotic variables
x = x0 * ones(1, num_values + 10000);
y = y0 * ones(1, num_values + 10000);
z = z0 * ones(1, num_values + 10000);
w = w0 * ones(1, num_values + 10000);
v = v0 * ones(1, num_values + 10000);
u = u0 * ones(1, num_values + 10000);
% Regenerate chaotic values
for ii = 2:num_values + 10001
x(ii) = x(ii-1) + dx * (a * (y(ii-1) - x(ii-1)));
y(ii) = y(ii-1) + dx * (x(ii-1) * (b - z(ii-1)) - y(ii-1));
z(ii) = z(ii-1) + dx * (x(ii-1) * y(ii-1) - c * z(ii-1));
w(ii) = w(ii-1) + dx * (v(ii-1) - w(ii-1));
v(ii) = v(ii-1) + dx * (w(ii-1) * u(ii-1) - v(ii-1));
u(ii) = u(ii-1) + dx * (w(ii-1) * v(ii-1) - c * u(ii-1));
end
x = x(10002:end);
y = y(10002:end);
z = z(10002:end);
w = w(10002:end);
v = v(10002:end);
u = u(10002:end);
x_int = mod(floor(abs(x * 1e15)), n);
y_int = mod(floor(abs(y * 1e15)), n);
x_int_unique = unique(x_int);
y_int_unique = unique(y_int);
end
% Generate the keys for embedding
key1 = unique(x_int + 1, 'stable'); % Unique positions for embedding
key2 = unique(y_int + 1, 'stable');
key1 = key1(1:n);
key2 = key2(1:n);
% Embed the hidden image into the cover image
stegoImage = coverImage; % Initialize the stego image
coverImage = uint8(coverImage);
hiddenImage = uint8(hiddenImage);
for i = 1:n
pos = key1(i);
row = mod(pos - 1, r) + 1; % Calculate row from position
col = floor((pos - 1) / r) + 1; % Calculate column from position
for k = 1:d
% Perform XOR to embed the hidden image
stegoImage(row, col, k) = bitxor(coverImage(row, col, k), hiddenImage(row, col, k));
end
end
% Save the stego image
imwrite(stegoImage, 'stego_image.jpg');
figure;
imshow(stegoImage);
title('Stego Image');
% Extract the hidden image from the stego image
extractedImage = uint8(zeros(size(hiddenImage))); % Initialize the extracted image
for i = 1:n
pos = key1(i);
row = mod(pos - 1, r) + 1; % Calculate row from position
col = floor((pos - 1) / r) + 1; % Calculate column from position
for k = 1:d
% Perform XOR to extract the hidden image
extractedImage(row, col, k) = bitxor(stegoImage(row, col, k), coverImage(row, col, k));
end
end
% Convert extracted image to uint8
extractedImage = uint8(extractedImage);
% Check if the extracted image is valid
if all(extractedImage(:) == 0)
error('The extracted image is empty.');
end
% Save the extracted image
imwrite(extractedImage, 'extracted_image.jpg');
figure;
imshow(extractedImage);
title('Extracted Image');
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回答 (1 件)
Image Analyst
2024 年 10 月 26 日
Hard to say without being able to run it and debug it. If you have any more questions, then attach your images with the paperclip icon after you read this:
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