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Digital Image Processing Using Scilab Pdf -
// Gradient magnitude edge_magnitude = sqrt(Gx.^2 + Gy.^2); imshow(uint8(edge_magnitude)); // Prewitt prewitt_x = [-1 0 1; -1 0 1; -1 0 1]; // Laplacian (second derivative) laplacian = [0 -1 0; -1 4 -1; 0 -1 0]; edges_laplacian = imfilter(gray_img, laplacian); 7. Morphological Operations Requires binary images.
median_filtered = medfilt2(gray_img, [3 3]); // Create Gaussian kernel (approx) gaussian_kernel = [1 2 1; 2 4 2; 1 2 1] / 16; gaussian_filtered = imfilter(gray_img, gaussian_kernel); 6. Edge Detection 6.1 Sobel Operator // Sobel kernels sobel_x = [-1 0 1; -2 0 2; -1 0 1]; sobel_y = [-1 -2 -1; 0 0 0; 1 2 1]; Gx = imfilter(double(gray_img), sobel_x); Gy = imfilter(double(gray_img), sobel_y); digital image processing using scilab pdf
// Low-pass filter in frequency domain [m, n] = size(gray_img); cx = m/2; cy = n/2; radius = 30; H = zeros(m, n); for i = 1:m for j = 1:n if sqrt((i-cx)^2 + (j-cy)^2) <= radius H(i, j) = 1; end end end // Gradient magnitude edge_magnitude = sqrt(Gx
