2D gaussian filter with a variable sigma

조회 수: 15 (최근 30일)
Chad Greene
Chad Greene 2019년 4월 1일
댓글: Image Analyst 2019년 4월 4일
I have a large gridded dataset I'd like to lowpass filter. The catch is, need to specify a different sigma value for each pixel of the grid.
Using a single value of sigma for the entire grid is easy with imgaussfilt, so for example, I can filter the grid I using a sigma value of 3 like this:
% A grid of data:
I = 10*rand(100);
% The grid, filtered to sigma=3:
If = imgaussfilt(I,3);
But I don't want tuse a single value of sigma for the entire grid. Instead, I want to specify a different sigma for every pixel. For this 100x100 grid it's easy to loop through each row and column, filtering the grid to specified values of sigma like this:
% A grid of sigma values corresponding to the grid of data:
sigma = abs(peaks(100))+0.1;
% Preallocate:
If2 = NaN(size(I));
% Loop through each row and column:
for row = 1:size(I,1)
for col = 1:size(I,2)
% Perform Gaussian filter on the entire grid using sigma(row,col):
tmp = imgaussfilt(I,sigma(row,col));
% Only save the value corresponding to this row and col:
If2(row,col) = tmp(row,col);
end
end
The nested loop approach gives the answer I want, but it's inelegant, and slow for very large grids. Is there a better way to define a locally-varying filter?

이 질문에 답변하려면 로그인하십시오.

답변 (1개)

Wolfgang Schwanghart
Wolfgang Schwanghart 2019년 4월 3일
편집: Wolfgang Schwanghart 2019년 4월 3일
Hi Chad,
below is some code that does the trick using nlfilter. To be more efficient, I created a look-up table with a finite set of sliding windows.
% Variable standard deviations
st = 1:100;
% Size of sliding window
% Should be an odd number
m = 101;
kcenter = ceil(m/2);
% Cell array of filters
st = cellfun(@(x) fspecial('gaussian',[m m],x),num2cell(st),'Unif',false);
% Image to be smoothed
A = rand(200);
% Image with variable standard deviations
STSIZE = randi(20,size(A))+5;
% Image with linear indices
IX = reshape(1:numel(A),size(A));
B = nlfilter(IX,[m m],...
@(ix) fun(ix,A,STSIZE,st,kcenter));
imagesc(B)
function out = fun(ix,A,STSIZE,st,kcenter)
if any(ix(:) == 0)
% image is zero padded
% return nan
out = nan;
else
% get window
ixc = ix(kcenter,kcenter);
stsize = STSIZE(ixc);
f = st{stsize};
a = A(ix);
out = f(:)'*a(:);
end
end
  댓글 수: 3
이전 댓글 1개 표시
Wolfgang Schwanghart
Wolfgang Schwanghart 2019년 4월 3일
편집: Wolfgang Schwanghart 2019년 4월 3일
True, the size of the window is fixed, but the standard deviation of the Gaussian Kernel varies. I have now updated the code. While m and n remain fixed (required by nlfilter), the standard deviation of the kernel varies freely, yet it never extends the size of the kernel.
Image Analyst
Image Analyst 2019년 4월 4일
I second this answer - I was going to suggest nlfilter() also, until I saw Wolfgang beat me to it.

댓글을 달려면 로그인하십시오.

카테고리

Help CenterFile Exchange에서 Creating and Concatenating Matrices에 대해 자세히 알아보기

태그

Community Treasure Hunt

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

Start Hunting!

Translated by