Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I have a very simple problem.

Suppose we have the following code to calculate directivity of isotropic antenna.

ThDeg = 0:5:180; 
dtheta = 5*pi/180;
dphi = 5*pi/180;
Th = ThDeg*pi/180;

% the above are the angles at which the following matrix is acquired in practical case. In this case we take a matrix of all ones.

U_iso = ones(72, 37); % our matrix assumed

omega_iso = 0;
for i = 1:72
    for j=1:37
        omega_iso = omega_iso + U_iso(i,j)*sin(Th(j))*dphi*dtheta;

D_iso = 4*pi/omega_iso

This is correct code which gives a value very close to 1 which should be for an isotropic antenna. Its just a sanity check so that when we have the actual matrix of 72*37, we can confirm that our code is correct.

Now the problem is that in the above example, we took a 72*37 matrix and did our integral approximation and got ONE value of directivity.

What I need is to calculate directivity at every cell value of the 72*37 matrix. So the result would be another 72*37 matrix showing the calculated value of directivity at each cell value( which in this ideal case is 1). So for this example, currently we are getting the result as only one value of directivity. We need this value at every cell of the U_iso matrix. This would result in a 72*37 matrix with same value in it. Moreover, all values in the matrix would be same as the result from the above code.

So can you help me in this. I cant understand how to move the loop accross the matrix. So it calculates for each cell.

Awaiting reply.

share|improve this question
You mean U_iso is a matrix of matrix or what? –  kennytm Jul 3 '10 at 19:30
No its just a assumed matrix. Usually, this is for the perfect antenna. But as i take measurement, so the practical antenna will have different numbers in its 72*37 matrix. This is acctually the radiation pattern. To make it simpler, the above U_iso is used. –  adeel Jul 3 '10 at 20:26
You may use the "elementwise" operators which takes matrices of same size and do something (say, multiplication) on each (i,j) element from each matrix. –  rwong Jul 3 '10 at 20:30
possible duplicate of How do I calculate result for every value in a matrix in MATLAB –  Jonas Jul 3 '10 at 20:45

1 Answer 1

SinThJ = zeros(72, 37);

% For each of the 72 x 37 cell, compute sin(Th(j))

for j = 1:37
  SinThJ(:, j) = repmat( sin(Th(j)), 72, 1);

% Elementwise multiplication
% This omega_iso becomes a matrix

omega_iso = U_iso .* SinThJ * dphi * dtheta;

% This is the integration of the matrix

omega_iso_sum = sum(sum(omega_iso));
share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.