Cole Cole Fitting to data

Question

Jasmine Boparai le 2 Sep 2021

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https://fr.mathworks.com/matlabcentral/answers/1445479-cole-cole-fitting-to-data

Réponse apportée : Maha le 12 Nov 2022

Réponse acceptée : Star Strider

I am having an experimental data and I want to do cole cole fitting using the equation

εr(ω) = ε' r(ω) - jε'' r(ω) = εro + Δεr/1 + (jωτ)^1-α +σs/jωε0

I am trying to do this with curve fitting toolbox, but not able to do it.

Then I want to find coefficientf from the equation.

I have attached csv file and code i was using this:

fid = fopen('Ist.csv');

out = textscan(fid,'%f %f %f', 'Headerlines', 1, 'delimiter',',');

fclose(fid);

%date = datevec(out{1});

col1 = out{1}

col2 = out{2}

Matlab form of equation:

output = e + d./((1-(j.*omega.*t).^(1-a)))+s./(j.*omega.*es);

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Jasmine Boparai le 3 Sep 2021

As you said fitting real data to complex model is not possible, but if we have complex data, then would it be possible?

Star Strider le 3 Sep 2021

I have no idea.

I have no idea what your data are, the rationale behind the model you are fitting, or anything else.

All I know is that I cannot get either GlobalSearch or ga to fit it.

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Answer 1

Star Strider le 2 Sep 2021

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In electrical engineering terminology,

, where f is the frequency in Hz. I defined ω that way here.

T1 = readtable('https://www.mathworks.com/matlabcentral/answers/uploaded_files/727854/Ist.csv', 'VariableNamingRule','preserve')

T1 = 1001×2 table

frequency(Hz) Tr 2 Data(e') _____________ ______________ 5e+08 52.4 5.26e+08 52.8 5.52e+08 52 5.78e+08 51.7 6.04e+08 52.3 6.3e+08 52.2 6.56e+08 51.4 6.82e+08 51.6 7.08e+08 52 7.34e+08 51.5 7.6e+08 51.2 7.86e+08 51.6 8.12e+08 51.6 8.38e+08 51 8.64e+08 51.2 8.9e+08 51.4

omega = 2*pi*T1{:,1};

y = T1{:,2};

es = 8.85e-12;

output = @(ero,d,t,s,a,omega) ero + d./((1-(1j.*omega.*t).^(1-a)))+s./(1j.*omega.*es);

[B,fval] = fminsearch(@(b) norm(y - imag(output(b(1),b(2),b(3),b(4),b(5),omega))), rand(5,1)*1000)

B = 5×1

615.4022 702.8629 10.1123 -4.5173 688.4702

fval = 697.6694

result = output(B(1),B(2),B(3),B(4),B(5),omega)

result =

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0.0031i 1.3183 + 0.0031i 1.3183 + 0.0031i 1.3183 + 0.0031i 1.3183 + 0.0031i

figure

plot(omega, y, '.')

hold on

plot(omega, imag(result), '-r')

hold off

grid

xlabel('\omega')

ylabel('Something')

legend('Data','Fit', 'Location','best')

The imaginary result appears to be the most appropriate fit, since the real result is a straight line, and the abs result is not much better. Regardless, the function and initial parameter estimates need to be examined closely to be certain that they actually describe the data. Other solvers (such as lsqcurvefit) might be more appropriate here. I use fminsearch because everyone has it.

.

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Star Strider le 3 Sep 2021

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I cannot help any more than I already have.

I even tried GlobalSearch on this and could not get a good fit, regardless of fitting the real, imag or abs values of the function to the data.

T1 = readtable('https://www.mathworks.com/matlabcentral/answers/uploaded_files/727854/Ist.csv', 'VariableNamingRule','preserve');
omega = 2*pi*T1{:,1};
y = T1{:,2};
es = 8.85e-12;
output = @(ero,d,t,s,a,omega) ero + d./((1-(1j.*omega.*t).^(1-a)))+s./(1j.*omega.*es);
fitfcn = @(b) norm(y - abs(output(b(1),b(2),b(3),b(4),b(5),omega)));
B0 = randn(5,1)*10000;
problem = createOptimProblem('fmincon', 'x0',B0, 'objective',fitfcn);
gs = GlobalSearch('PlotFcns',@gsplotbestf);
[B,fval] = run(gs,problem)
B(:)
result = output(B(1),B(2),B(3),B(4),B(5),omega);
figure
plot(omega, y, '.')
hold on
plot(omega, real(result), '-r')
plot(omega, imag(result), '--r')
plot(omega, abs(result), '-g')
hold off
grid
xlabel('\omega')
ylabel('Something')
legend('Data','Fit', 'Location','best')

The model does not describe the data, so any further efforts to fit this are likely not worthwhile.

Stopping here.

Good luck!

.

Star Strider le 3 Sep 2021

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Attempting the fit using the genetic algorithm —

T1 = readtable('https://www.mathworks.com/matlabcentral/answers/uploaded_files/727854/Ist.csv', 'VariableNamingRule','preserve');

omega = 2*pi*T1{:,1};

y = T1{:,2};

es = 8.85e-12;

outputfcn = @(ero,d,t,s,a,omega) ero + d./((1-(1j.*omega.*t).^(1-a)))+s./(1j.*omega.*es);

ftns = @(b) norm(y - real(outputfcn(b(1),b(2),b(3),b(4),b(5),omega)));

PopSz = 50;

Parms = 5;

opts = optimoptions('ga', 'PopulationSize',PopSz, 'InitialPopulationMatrix',randi(1E+4,PopSz,Parms)*1E-3, 'MaxGenerations',2E3); %, 'PlotFcn',@gaplotbestf, 'PlotInterval',1);

[theta,fval,exitflag,output] = ga(ftns, Parms, [],[],[],[],zeros(Parms,1),Inf(Parms,1),[],[],opts)

Optimization terminated: average change in the fitness value less than options.FunctionTolerance.

theta = 1×5

0.0001 18.6955 0.0001 11.3390 1.0617

fval = 303.9269

exitflag = 1

output = struct with fields:

problemtype: 'boundconstraints' rngstate: [1×1 struct] generations: 1119 funccount: 52646 message: 'Optimization terminated: average change in the fitness value less than options.FunctionTolerance.' maxconstraint: 0 hybridflag: []

format long

B = theta(:)

B = 5×1

0.000082602500916 18.695516696453094 0.000073242187500 11.338973423600198 1.061712076544762

format short

result = outputfcn(B(1),B(2),B(3),B(4),B(5),omega);

figure

plot(omega, y, '.')

hold on

plot(omega, real(result), '-r')

% plot(omega, imag(result), '--r')

% plot(omega, abs(result), '-g')

hold off

grid

xlabel('\omega')

ylabel('Something')

legend('Data','Fit Real', 'Location','best')

.

Star Strider le 3 Sep 2021

My pleasure!

Alex Sha le 4 Sep 2021

Modifié(e) : Alex Sha le 4 Sep 2021

Ouvrir dans MATLAB Online

Hi, Jasmine, the results provided above are obtained by one other package other than Matlab, the code looks simple like:

Constant es = 8.85e-12;
ComplexStr = j;
Variable omega,y[realPart];
Function y = real(e + d/((1-(j*omega*t)^(1-a)))+s/(j*omega*es));
DataFile "Sheet1[A2:B1002]";

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Answer 2

Maha le 12 Nov 2022

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Utiliser le lien direct vers cette réponse

https://fr.mathworks.com/matlabcentral/answers/1445479-cole-cole-fitting-to-data#answer_1097623

can i get the script code working on matlab to solve the same prob debye eq

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