How to plot the best fitted ellipse or circle?

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Hi all,
I have a data set (attached here) that has two arrays. I want to plot them in a polar graph and want to find out the best fitted a) ellipse, and b) circle.
x(:,1) is the x and x(:,2) is the y for the plot.
If anyone can help me out here, I will be very grateful.
xy = load("EllipseData.mat");
x = xy.x(:,1);
y = xy.x(:,2);
plot(x,y,'o')
axis equal
  5 Comments
Ashfaq Ahmed
Ashfaq Ahmed on 25 Oct 2023
Edited: Ashfaq Ahmed on 25 Oct 2023
Hi @Image Analyst, the secoond option. It would be if they are plotted in the polarplot first and then creating the ellipsoid.
Image Analyst
Image Analyst on 25 Oct 2023
I see you accepted @Matt J's answer. You can adjust/control the approximate number of points within the ellipse by changing the 0.95 in this line of code:
b=boundary(XY,0.95);

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Accepted Answer

Matt J
Matt J on 25 Oct 2023
Edited: Matt J on 25 Oct 2023
The code below uses ellipsoidalFit() from this FEX download,
Is this the kind of thing you are looking for?
xy=load('EllipseData.mat').x;
p=prunecloud(xy);
Warning: Polyshape has duplicate vertices, intersections, or other inconsistencies that may produce inaccurate or unexpected results. Input data has been modified to create a well-defined polyshape.
I=all(~isnan(p.Vertices),2);
e=ellipticalFit(p.Vertices(I,:)');
%Display -- EDITED
XY=e.sample(linspace(0,360,1000));
[t,r]=cart2pol(xy(:,1),xy(:,2));
[T,R]=cart2pol(XY{:});
polarplot(t,r,'ob',T,R,'r-')
function [p,XY]=prunecloud(xy)
for i=1:3
D2=max(pdist2(xy,xy,'euclidean','Smallest', 10),[],1);
xy(D2>0.1,:)=[];
end
XY=xy;
b=boundary(XY,0.95);
p=polyshape(XY(b,:));
end
  4 Comments
Ashfaq Ahmed
Ashfaq Ahmed on 25 Oct 2023
Hi @Matt J, thank you for the suggestion. I can see it is working now. I have a request. Can you please help me plot it on a polar plane?
Matt J
Matt J on 25 Oct 2023
Edited: Matt J on 25 Oct 2023
See my edited answer.

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More Answers (3)

Image Analyst
Image Analyst on 24 Oct 2023

Torsten
Torsten on 24 Oct 2023
Edited: Torsten on 24 Oct 2023
  1. Compute the center of gravity of the point cloud. Call it (x',y').
  2. Compute the point of your point cloud with the greatest distance to (x',y'). Call the distance R.
  3. Define the circle that encloses the point cloud by (x-x')^2 + (y-y')^2 = R^2.
  6 Comments

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Les Beckham
Les Beckham on 25 Oct 2023
Moved: Image Analyst on 25 Oct 2023
xy = load("EllipseData.mat");
x = xy.x(:,1);
y = xy.x(:,2);
rho = sqrt(x.^2 + y.^2);
theta = atan2(y,x); % <<< use 4 quadrant atan2
polarplot(theta, rho, '.', 'markersize', 3, 'Color', '#aa4488')

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