I have a cubic matrix of voxels of value
1 (the rest is
0). I need a matrix of the same size where the voxels INSIDE the convex hull are all of value
1. I've seen a similar example and adapted it: If I do this to the following, would that work?
% im3D is a cubic matrix of zeros and ones
**[x,y,z]=ind2sub(size(im3D), find(im3D==value)); pointMatrix(:,1) = x; pointMatrix(:,2) = y; pointMatrix(:,3) = z; [K,V] = convhull(x,y,z); dt = DelaunayTri(pointMatrix); [X,Y,Z] = meshgrid(1:size(im3D)); simplexIndex = pointLocation(dt,X(:),Y(:),Z(:)); filled_chull = ~isnan(simplexIndex); filled_chull = reshape(filled_chull,size(X));**
Second question: The voxels inside the convexhull should be all connected right? then why does the following function gives me two connected objects... either euclidean or Manhattan-like / octagon?
**function [nEL, nVOX] = im3D_countobj(im3D,METRIC) % set METRIC either 'euclidean' or 'octagon' ES = mmsedisk(1,'3D',METRIC); q = bwlabeln(im3D,mmseshow(ES)); nEL = max(max(max(q))); nVOX = size(find(im3D),1); end**