Convert them to grayscale. Write a function, convolve, which takes a filter, F, and an image, I, as input and calculates the 2D convolutions of I with F via the use of ‘for’

10 vues (au cours des 30 derniers jours)
Load the Old house.jpg image. Convert them to grayscale. Write a function, convolve, which takes a filter, F, and an image, I, as input and calculates the 2D convolutions of I with F via the use of ‘for’ loops. Zero-pad the image within the function to ensure that the filtered image is the same size as the original image. You may assume that F always has an odd value for its height and width. DO NOT USE the existing conv, conv2, convn, filter, or filter2 functions. Apply a 15×15 Gaussian filter with a standard deviation of 5 to both images using the convolve function. Show the results.
code:
function outImg = convolve(img, filter)
% Get the dimensions of the filter and the image
[filterHeight, filterWidth] = size(filter);
[imgHeight, imgWidth] = size(img);
% Calculate the padding required for each dimension
padHeight = floor(filterHeight / 2);
padWidth = floor(filterWidth / 2);
% Create a zero-padded version of the image
paddedImg = zeros(imgHeight + 2*padHeight, imgWidth + 2*padWidth);
paddedImg(padHeight+1:padHeight+imgHeight, padWidth+1:padWidth+imgWidth) = img;
% Create an output image of the same size as the input image
outImg = zeros(size(img));
% Perform 2D convolution using nested for loops
for i = 1:imgHeight
for j = 1:imgWidth
% Extract the current patch from the padded image
patch = paddedImg(i:i+filterHeight-1, j:j+filterWidth-1);
% Multiply the patch by the filter and sum the result
result = sum(sum(patch .* filter));
% Assign the result to the output image
outImg(i,j) = result;
end
end
end
% Load the input image
img = imread('Old house.jpg');
% Convert the image to grayscale
imgGray = rgb2gray(img);
% Create a 15x15 Gaussian filter with a standard deviation of 5
filterSize = 15;
sigma = 5;
filter = fspecial('gaussian', filterSize, sigma);
% Apply the filter to the grayscale image using the convolve function
filteredImgGray = convolve(imgGray, filter);
% Apply the filter to the original image by filtering each color channel separately
filteredImg = zeros(size(img));
for i = 1:3
filteredImg(:,:,i) = convolve(img(:,:,i), filter);
end
% Display the filtered grayscale image
imshow(filteredImgGray, []);
% Display the filtered original image
figure;
imshow(filteredImg);
error:
Error: File: untitled1.m Line: 32 Column: 1
This statement is not inside any function.
(It follows the END that terminates the definition of the function
"convolve".)

Réponses (1)

Jan
Jan le 12 Mar 2023
outImg(i,j) = result;
end
end
end % <== This END closes the function
% Load the input image
img = imread('Old house.jpg');
All code after this end is outside of a function and therefore no valid Matlab syntax. This is explained in the error message clearly, isn't it?

Produits


Version

R2021a

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!

Translated by