Finding 8 points on an ellipse
Afficher commentaires plus anciens
Dear experts,
I have created a 95% confidence ellipse using the following code around a dataset:
allX = score(:,1);
allY = score(:,2);
p = 95;
CIx = prctile(allX, [(100-p)/2, p+(100-p)/2]);
CIy = prctile(allY, [(100-p)/2, p+(100-p)/2]);
CIrng(1) = CIx(2)-CIx(1);
CIrng(2) = CIy(2)-CIy(1);
llc = [CIx(1),CIy(1)];
rectangle('Position',[llc,CIrng],'Curvature',[1,1], 'EdgeColor',"red");
Now I need to find 8 specific points on the ellipse. Points W - Z have to be the lowest, highest, most right and most left of the ellipse (as you can see here (those are normally not the problem, i think you don´t have to help me with these four points):
The points A-D are more of a problem for me. How can I find these? They are somehow the corners of the rectangle so the corners of the ellipse, but how do I find the coordinates of those?
Thanks in advance.
4 commentaires
Tom
le 20 Sep 2021
Walter Roberson
le 20 Sep 2021
The placement is not obvious .
Is the sector area A to center to W (to A) equal to the sector area X to center to A (to X) ? https://math.stackexchange.com/questions/114371/deriving-the-area-of-a-sector-of-an-ellipse
Tom
le 20 Sep 2021
Image Analyst
le 20 Sep 2021
Can you attach your data with the paperclip icon?
Réponse acceptée
Walter Roberson
le 20 Sep 2021
1 vote
When the ellipse is parameterized as 
then the area for the angle from 0 to θ is 
then the area for the angle from 0 to θ is And the total area of an ellipse of this form is 
. We want a sector that is half of the upper quadrant. The upper quadrant by itself would have an area of 
. So we want 
. Factoring out the 
and a 1/2 from both sides then we have 
and so 
. So 
and then 
. But tan pi/4 is 1, so 
. We want a sector that is half of the upper quadrant. The upper quadrant by itself would have an area of . So we want . Factoring out the and a 1/2 from both sides then we have and so . So and then . But tan pi/4 is 1, so Checking with (say) a = 5, b = 2, then 
. Compute 1/2 * a * b * atan(5/2*tan(atan(2/5))) = 1/2 * 5 * 2 * atan(5/2 * 2/5) = 5 * atan(1) = 5 * pi/4 . And on the left side, 1/2 * pi/4 * 5 * 2 = 5 * pi/4 .
. Compute 1/2 * a * b * atan(5/2*tan(atan(2/5))) = 1/2 * 5 * 2 * atan(5/2 * 2/5) = 5 * atan(1) = 5 * pi/4 . And on the left side, 1/2 * pi/4 * 5 * 2 = 5 * pi/4 .So the formula for theta turns out to be very simple: atan2(b,a)
Now you just have to transform CIrng into a, b parameters.
Plus de réponses (1)
KSSV
le 20 Sep 2021
1 vote
Find the major, minor axes of ellipse i.e. (a,b). Once these are known, the paraetric equation of ellipse are:
Take phi = 0:pi/4:2*pi ;
You have the points you want.
Catégories
En savoir plus sur Logical dans Centre d'aide et File Exchange
le 20 Sep 2021
le 20 Sep 2021
Community Treasure Hunt
Find the treasures in MATLAB Central and discover how the community can help you!
Start Hunting!
Translated by 
