I have 2 arrays: one with x-coordinates, the other with y-coordinates. Both are a normal distribution as a result of a Monte-Carlo simulation. I know how to find the sigma and mu for both array's, and get a 95% confidence interval:

x=norminv([0.025 0.975],mu,sigma)

However, both array's are correlated with each other. To plot the probability distribution of the combined array's, i use the multivariate normal distribution. In MATLAB this gives me:

mu = [MuX MuY];
x1 = MuX-4*SigmaX:5:MuX+4*SigmaX; x2 = MuY-4*SigmaY:5:MuY+4*SigmaY;
[X1,X2] = meshgrid(x1,x2);
F = mvnpdf([X1(:) X2(:)],mu,Sigma);
F = reshape(F,length(x2),length(x1));
xlabel('x0-as'); ylabel('y0-as'); zlabel('Probability Density');

enter image description here

So far so good. Now I want to calculate the 95% probability area. I'am looking for a function as mndinv, just as norminv. However, such a function doesn't exist in MATLAB, which makes sense because there are endless possibilities... Does somebody have a tip about how to get a 95% probability area? Thanks in advance.

  • so you want to know the area where the top 5% lies? What do you want to know, its value? Area? plot? – Ander Biguri Feb 5 '16 at 11:57
  • It are all simulated impact coördinates. I want to calculate the area in which the change of impact is 95%. It would be great if I can plot this area (ellips shape?) in the figure above, or in a contour plot. – Jurriën Feb 5 '16 at 12:02
  • Note that while plotting can be easier, the are can be a bit harder to know. – Ander Biguri Feb 5 '16 at 12:04
  • 1
    There is not a single region that will give you 95% probability. You probably want the region with minimum area that gives 95% probability. That can probably be obtained as a level set of the multivariate normal pdf – Luis Mendo Feb 5 '16 at 13:19
  • I agree, I think this fits more to my problem than the answer of Ander. Stil don't know how to implement a level set at my funtion. – Jurriën Feb 5 '16 at 13:35
up vote 3 down vote accepted

For the bivariate case you can add the ellispe whose area corresponds to NORMINV(95%). This ellipse is uniquely identified and for proof see the first source in the link.

% Suppose you know the distribution params, or you got them from normfit()
mu    = [3, 7];
sigma = [1, 2.5
         2.5  9];

% X/Y values for plotting grid
x = linspace(mu(1)-3*sqrt(sigma(1)), mu(1)+3*sqrt(sigma(1)),100);
y = linspace(mu(2)-3*sqrt(sigma(end)), mu(2)+3*sqrt(sigma(end)),100);

% Z values
[X1,X2] = meshgrid(x,y);
Z       = mvnpdf([X1(:) X2(:)],mu,sigma);
Z       = reshape(Z,length(y),length(x));

% Plot
h = pcolor(x,y,Z);
hold on

% Add level set
alpha = 0.05;
r     = sqrt(-2*log(alpha));
rho   = sigma(2)/sqrt(sigma(1)*sigma(end));
M     = [sqrt(sigma(1)) rho*sqrt(sigma(end))
         0              sqrt(sigma(end)-sigma(end)*rho^2)];

theta = 0:0.1:2*pi;
f     = bsxfun(@plus, r*[cos(theta)', sin(theta)']*M, mu);
plot(f(:,1), f(:,2),'--r')

enter image description here


  • Thank you! I had to change the last lines though to get it work: f = r*[cos(theta)', sin(theta)']*M; f(:,1)=f(:,1)+mu(1); f(:,2)=f(:,2)+mu(2); plot(f(:,1), f(:,2),'--r') – Jurriën Feb 5 '16 at 15:40
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    @Jurriën thanks for pointing that out. I'll amend...I am using a Matlab's pre-release and I just noticed a new feature! – Oleg Feb 5 '16 at 15:46

To get the numerical value of F where the top part lies, you should use top5=prctile(F(:),95) . This will return the value of F that limits the bottom 95% of data with the top 5%.

Then you can get just the top 5% with

%// optional: Ftop(Ftop==0)=NaN;
  • In my case, F=<80*58 double>. So when using Ftop=F>top5 I get the error 'Matrix dimensions must agree' as top5=1*85 double? – Jurriën Feb 5 '16 at 12:20
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    @GameOfThrows oh yeah. I did actually use F(:) – Ander Biguri Feb 5 '16 at 12:50
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    Hm, I don't think your solution is what I'am looking for. The comment of Luis Mendo suits more to my problem I quess. – Jurriën Feb 5 '16 at 13:38

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