function imgDenoised = NLEM(imgNoisy, h, P, S)
[m, n] = size(imgNoisy);
N = 2*P + 1;
h2 = h * h;
kNN = ceil ( (2*S + 1)^2 / 2 ); % top 50% of the neighbors used
imgPad = padarray(imgNoisy, [P P], 'symmetric');
imgDenoised = zeros(m,n);
fprintf('Looping over pixels....\n');
for i = 1 : m
ii = i + P;
for j = 1 : n
jj = j + P;
patchRef = imgPad(ii - P : ii + P, jj - P : jj + P);
pmin = max(i - S, 1) + P;
qmin = max(j - S, 1) + P;
pmax = min(i + S, m) + P;
qmax = min(j + S, n) + P;
s1 = pmax - pmin + 1;
s2 = qmax - qmin + 1;
w = zeros(s1, s2);
neighborPatches = zeros(s1, s2, N^2);
patchCurrent = zeros(2*P + 1, 2*P + 1);
patch = zeros(N, N); %#ok<*NASGU>
u = 0;
for p = pmin : pmax
u = u + 1;
v = 0;
for q = qmin : qmax
v = v + 1;
patchCurrent = imgPad(p - P : p + P, q - P : q + P);
d2 = sum(sum( (patchRef - patchCurrent) ...
.* (patchRef - patchCurrent) ));
w(u, v) = exp(- d2 / h2);
patch = imgPad(p - P : p + P, q - P : q + P);
neighborPatches(u, v, :) = reshape(patch, [N^2 1]);
end
end
% sort weights
w = reshape(w, [s1*s2 1]);
[w , I] = sort(w, 'descend');
L = min(kNN, s1*s2);
f = reshape(neighborPatches, [s1*s2 N^2])';
median = findEuclideanMedian(f(: , I(1 : L)), w(1 : L));
patch_est = reshape(median, [N N]);
imgDenoised(i, j) = patch_est(P + 1, P + 1);
end
end