Fit a Sphere!
Sean's pick this week is Sphere Fit by Alan Jennings.
Fitting a Sphere to Data
I recently had some data and wanted to fit a sphere through it so that I could find the radius of this sphere. As I started writing out an objective function for one of the Optimization Toolbox optimizers (yes I was taking the way too big a hammer approach), a quick query on the File Exchange brought up sphereFit, a pleasant discovery.
After downloading the files, I looked at Alan's published example, it looked like it would work!
Let's see it in action:
% Load mri of a human head S = load('mri'); D = squeeze(S.D); % Generate data points on the edge of the head for ii = size(D,3):-1:1; % Perimeter of convex hull of each slice M(:,:,ii) = bwperim(bwconvhull(D(:,:,ii)>50)); end
% Find sub indices in our mask idx = find(M); % find points in M [rr,cc,pp] = ind2sub(size(M),idx); % sub indices pp = pp.*floor(size(D,1)./size(D,3)); % rescale third dimension % View data figure; scatter3(rr,cc,pp,10,pp); daspect([1,1,1]); view(-121,36); axis tight;
% Fit the Sphere: [cent,radius] = sphereFit([rr, cc, pp]); fprintf(1,'\nRadius of sphere is %3.1f\nIt is centered at [%3.1f %3.1f %3.1f]\n',radius,cent);
Radius of sphere is 54.3 It is centered at [72.9 63.4 51.7]
Use Alan's example code to show the sphere through the points
scatter3(cc,rr,pp,25,pp,'*'); %points hold on; % hold daspect([1,1,1]); % equal axis so a sphere looks like a sphere [Base_rr,Base_cc,Base_pp] = sphere(20); surf(radius*Base_rr+cent(2),... radius*Base_cc+cent(1),... radius*Base_pp+cent(3),'faceAlpha',0.3,'Facecolor','m') axis tight; view(-121,36);
Comments
Give it a try and let us know what you think here or leave a comment for Alan.
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