Numerical method to solve matric for eigen values of matrix (the input of matrix is an array)?
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Data1 = readtable('Aeiphi.xlsx');
T1=table2array(Data1);
freq = T1(:,2); % Frequency (in THz)
txx = T1(:,3); % Amplitude of Co-Polarozation XX
P1 = T1(:,4); % Phase of Co-Polarozation XX
tyy = T1(:,5); % Amplitude of Co-Polarozation YY
P2 = T1(:,6); % Phase of Co-Polarozation YY
txy = T1(:,7); % Amplitude of Cross-Polarozation XY
P3 = T1(:,8); % Phase of Cross-Polarozation XY
tyx = T1(:,9); % Amplitude of Cross-Polarozation YX
P4 = T1(:,10); % Phase of Cross-Polarozation YX
T_XX = txx.*exp(1i.*P1); % Transmittance of co - polarozation of XX
T_YY = tyy.*exp(1i.*P2); % Transmittance of co - polarizarion of yy
T_XY = txy.*exp(1i.*P3); % Transmittance of cross polarization of xy
T_YX = tyx.*exp(1i.*P4); % Transmittance of cross polarization of yx
TT = table(T_XX,T_YY,T_XY,T_YX);
%%%% Eigen Matrix
ii = 1:1:1002;
n = length(ii);
for i = 1:n
T = [T_XX(i,1), T_XY(i,1); T_YX(i,1), T_YY(i,1)]; % Eigen Matrix for each frequency
E = eig(T); % Eigen Values
val = [E(1,1), E(2,1)]; % Reordering the Matrix
E1(i,1) = val(:,1); % Eigen Value 1
E2(i,1) = val(:,2); % Eigen value 2
ii=ii+1;
ES1(:,1) = real(E1(:,1));
ES2(:,1) = real(E2(:,1));
ephi1(:,1) = imag(E1(:,1));
ephi2(:,1) = imag(E2(:,1));
end
%% From eigen values separate real and imaginary part.
% (Real part: Transmission coffecient, Imaginary part: Phase)
a = abs(ES1);
b = abs(ES2);
c = ephi1;
d = ephi2;
T2 = table(a,b,c,d)
figure
plot(freq,a) % Plot of freq vs real eigen value 1 and 2
plot(freq,b)
ylim([0 1])
plot(freq,ephi1,freq,ephi2) % Plot of freq vs imag eigen value 1 and 2
ylim([-0.6 0.6])
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Réponses (2)
Walter Roberson
le 19 Août 2024
E1(i,1) = val(:,1); % Eigen Value 1
E2(i,1) = val(:,2); % Eigen value 2
ii=ii+1;
You did not initialize E1 and E2 before the loop, so E1 and E2 become initialized during the first iteration. i = 1 for the first iteration, so E1 and E2 get intialized to 1 x 1
The first iteration E1 is 1 x 1 and E2 is 1 x 1.
ES1(:,1) = real(E1(:,1));
ES2(:,1) = real(E2(:,1));
ES1 and ES2 are not initialized before the loop, so ES1 and ES2 are used. The first iteration E1 and E2 are 1 x 1, so (:,1) indexing will fetch 1 x 1, so ES1 and ES2 will get initialized to 1 x 1
The second iteration, i = 2 so E1(2,1) and E2(2,1) get assigned to, growing E1 and E2 to 2 x 1.
Then E1(:,1) is 2 x 1. But ES1 is still 1 x 1 so ES1(:,1) is a 1 x 1 extract of ES1. So the destination is 1 x 1 but the source is 2 x 1.
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CHARUMATHI P R
le 22 Août 2024
2 commentaires
Steven Lord
le 22 Août 2024
Please show the modified code and the full and exact text of any warning and/or error messages you received (all the text displayed in orange and/or red in the Command Window when you run your code.)
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