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Actually i have two intersecting circles as specified in the figure

i want to find the area of each part separately using Monte carlo method in Matlab .

The code doesn't draw the rectangle or the circles correctly so i guess what is wrong is my calculation for the x and y and i am not much aware about the geometry equations for solving it so i need help about the equations.

enter image description here this is my code so far :

n=1000;
%supposing that a rectangle will contain both circles so :
% the mid point of the distance between 2 circles will be (0,6) 
% then by adding the radius of the left and right circles the total distance 
% will be 27 , 11 from the left and 16 from the right 
% width of rectangle = 24

x=27.*rand(n-1)-11;
y=24.*rand(n-1)+2;
count=0;

for i=1:n

if((x(i))^2+(y(i))^2<=25 && (x(i))^2+(y(i)-12)^2<=100)
count=count+1;        
    figure(2);
    plot(x(i),y(i),'b+')
    hold on

elseif(~(x(i))^2+(y(i))^2<=25 &&(x(i))^2+(y(i)-12)^2<=100)  
    figure(2);
    plot(x(i),y(i),'y+')
    hold on

else 
     figure(2);
    plot(x(i),y(i),'r+')

end

end
  • What exactly is your question? The vague "I need help" does not explain what you want. Please describe what the code is doing, both correct and incorrect. Please describe what you want. The help center pages give lots off advice on how to write a good question. See also minimal reproducible example. – AdrianHHH Feb 28 '16 at 13:25
  • " i need help about that " was about the geometric equations ,, any ways i edited it , thanks for the notice – Suzy Feb 28 '16 at 13:34
2

Here are the errors I found:

x = 27*rand(n,1)-5
y = 24*rand(n,1)-12

The rectangle extents were incorrect, and if you use rand(n-1) will give you a (n-1) by (n-1) matrix.

and

first If:

(x(i))^2+(y(i))^2<=25 && (x(i)-12)^2+(y(i))^2<=100

the center of the large circle is at x=12 not y=12

Second If:

~(x(i))^2+(y(i))^2<=25 &&(x(i)-12)^2+(y(i))^2<=100

This code can be improved by using logical indexing.

For example, using R, you could do (Matlab code is left as an excercise):

n = 10000
x = 27*runif(n)-5
y = 24*runif(n)-12
plot(x,y)

r = (x^2 + y^2)<=25 & ((x-12)^2 + y^2)<=100
g = (x^2 + y^2)<=25
b = ((x-12)^2 + y^2)<=100
points(x[g],y[g],col="green")
points(x[b],y[b],col="blue")
points(x[r],y[r],col="red")

which gives:

Colored regions

  • Thanks alot Sir , that was really helpful :) – Suzy Feb 28 '16 at 17:36
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Here is my generic solution for any two circles (without any hardcoded value):

function [ P ] = circles_intersection_area( k1, k2, N )
%CIRCLES_INTERSECTION_AREA Summary...
%   Adnan A.
x1 = k1(1);
y1 = k1(2);
r1 = k1(3);

x2 = k2(1);
y2 = k2(2);
r2 = k2(3);

if sqrt((x1-x2)*(x1-x2) + (y1-y2)*(y1-y2)) >= (r1 + r2)
    % no intersection
    P = 0;
    return
end

% Wrapper rectangle config
a_min = x1 - r1 - 2*r2;
a_max = x1 + r1 + 2*r2;
b_min = y1 - r1 - 2*r2;
b_max = y1 + r1 + 2*r2;

% Monte Carlo algorithm
n = 0;
for i = 1:N
    rand_x = unifrnd(a_min, a_max);
    rand_y = unifrnd(b_min, b_max);

    if sqrt((rand_x - x1)^2 + (rand_y - y1)^2) < r1 && sqrt((rand_x - x2)^2 + (rand_y - y2)^2) < r2
        % is a point in the both of circles
        n = n + 1;
        plot(rand_x,rand_y, 'go-');
        hold on;
    else
        plot(rand_x,rand_y, 'ko-');
        hold on;
    end
end

P = (a_max - a_min) * (b_max - b_min) * n / N;

end

Call it like: circles_intersection_area([-0.4,0,1], [0.4,0,1], 10000) where the first param is the first circle (x,y,r) and the second param is the second circle.

0

Without using For loop.

    n = 100000;
    data = rand(2,n);
    data = data*2*30 - 30;
    x = data(1,:);
    y = data(2,:);
    plot(x,y,'ro');
    inside5 = find(x.^2 + y.^2 <=25);
    hold on 
    plot (x(inside5),y(inside5),'bo');
    hold on 
    inside12 = find(x.^2 + (y-12).^2<=144);
    plot (x(inside12),y(inside12),'g');
    hold on 
    insidefinal1 = find(x.^2 + y.^2 <=25 & x.^2 + (y-12).^2>=144);
    insidefinal2 = find(x.^2 + y.^2 >=25 & x.^2 + (y-12).^2<=144);
    % plot(x(insidefinal1),y(insidefinal1),'bo');
    hold on
    % plot(x(insidefinal2),y(insidefinal2),'ro');
    insidefinal3 = find(x.^2 + y.^2 <=25 & x.^2 + (y-12).^2<=144);
    % plot(x(insidefinal3),y(insidefinal3),'ro');
    area1=(60^2)*(length(insidefinal1)/n);
    area3=(60^2)*(length(insidefinal2)/n);
    area2= (60^2)*(length(insidefinal3)/n);

enter image description here

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