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getNGTDM_window.m
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getNGTDM_window.m
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function [NGTDM,countValid] = getNGTDM_window(ROIOnly,levels,window)
% AUTHOR(S):
% - Lijun Lu <[email protected]>
% - Martin Vallieres <[email protected]>
% -------------------------------------------------------------------------
% HISTORY:
% - Creation: January 2013
% - Revision: May 2015
% - Revision: Oct 2017
% PRELIMINARY
if numel(size(ROIOnly)) == 2 % generalization to 2D inputs
twoD = 1;
else
twoD = 0;
end
nLevel = length(levels);
if nLevel > 100
adjust = 10000;
else
adjust = 1000;
end
if twoD
ROIOnly = padarray(ROIOnly,[1,1],NaN,'both');
else
ROIOnly = padarray(ROIOnly,[1,1,1],NaN,'both');
end
% QUANTIZATION EFFECTS CORRECTION
% In case (for example) we initially wanted to have 64 levels, but due to
% quantization, only 60 resulted.
uniqueVol = round(levels*adjust)/adjust;
ROIOnly = round(ROIOnly*adjust)/adjust;
NL = length(levels);
temp = ROIOnly;
for i = 1:NL
ROIOnly(temp==uniqueVol(i)) = i;
end
% INTIALIZATION
NGTDM = zeros(NL,1);
countValid = zeros(NL,1);
win = (window-1)./2;
win = int8(win);
[Sx,Sy,Sz] = size(ROIOnly);
ROItemp = zeros(Sx+2*win,Sy+2*win,Sz+2*win);
ROItemp(win+1:Sx+win,win+1:Sy+win,win+1:Sz+win) = ROIOnly;
ROIOnly = ROItemp;
id = find(ROIOnly == 0);
ROIOnly(id) = NaN;
% COMPUTATION OF NGTDM
if twoD
[a,b] = size(ROIOnly);
[i,j] = ind2sub(size(ROIOnly),find(~isnan(ROIOnly)));
posValid = [i,j];
nValid_temp = size(posValid,1);
for n = 193:nValid_temp
weights = zeros(window, window);
if posValid(n,1) > win && posValid(n,1) < a-win+1 && posValid(n,2) > win && posValid(n,2) < b-win+1
neighbours = zeros(window^2,1);
neighbours(1:window^2) = ROIOnly((posValid(n,1)-win):(posValid(n,1)+win),(posValid(n,2)-win):(posValid(n,2)+win));
centerx = posValid(n,1); centery = posValid(n,2);
xx = 1;
for x = (posValid(n,1)-win):(posValid(n,1)+win)
yy = 1;
for y = (posValid(n,2)-win):(posValid(n,2)+win)
x = double(x); y = double(y);
if x == centerx && y == centery
weights(xx,yy) = 1;
else
weights(xx,yy) = 1./sqrt((x-centerx)^2 + (y-centery)^2);
end
yy = yy+1;
end
xx = xx+1;
end
weights = weights(:);
neighbours = neighbours.*weights;
value = neighbours((window^2+1)./2);
neighbours((window^2+1)./2) = NaN;
neighbours = neighbours/sum(weights(~isnan(neighbours)));
neighbours((window^2+1)./2) = []; % Remove the center voxel
if ~isempty(neighbours(~isnan(neighbours))) % Thus only excluding voxels with NaNs only as neighbors.
NGTDM(value) = NGTDM(value) + abs(value-sum(neighbours(~isnan(neighbours))));
countValid(value) = countValid(value) + 1;
end
else
end
end
else
[i,j,k] = ind2sub(size(ROIOnly),find(~isnan(ROIOnly)));
posValid = [i,j,k];
nValid_temp = size(posValid,1);
%% comput the weights for different window size
weights = zeros(window, window, window);
center = win + 1;
center = double(center);
xx = 1;
for x = center-win:center+win
yy = 1;
for y = center-win:center+win
zz = 1;
for z = center-win:center+win
x = double(x);y = double(y);z = double(z);
if x == center && y == center && z == center
weights(xx,yy,zz) = 1;
else
weights(xx,yy,zz) = 1./sqrt((x-center)^2 + (y-center)^2 + (z-center)^2);
end
zz = zz+1;
end
yy = yy+1;
end
xx = xx+1;
end
weights = weights(:);
for n = 1:nValid_temp
neighbours = zeros(window^3,1);
neighbours(1:window^3) = ROIOnly((posValid(n,1)-win):(posValid(n,1)+win),(posValid(n,2)-win):(posValid(n,2)+win),(posValid(n,3)-win):(posValid(n,3)+win));
neighbours = neighbours.*weights;
value = neighbours((window^3-1)./2+1);
neighbours((window^3-1)./2+1) = NaN;
neighbours = neighbours/sum(weights(~isnan(neighbours)));
neighbours((window^3-1)./2+1) = []; % Remove the center voxel
if ~isempty(neighbours(~isnan(neighbours))) % Thus only excluding voxels with NaNs only as neighbors.
NGTDM(value) = NGTDM(value) + abs(value-sum(neighbours(~isnan(neighbours))));
countValid(value) = countValid(value) + 1;
end
end
end
end