How to model a time series data with a custom function?

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María ML
María ML on 21 Dec 2022
Commented: Mathieu NOE on 5 Dec 2024
I'm trying to fit an ex-gaussian function to a time series of data. I tried to use the fit function of MATLAB. I don't know what I'm doing wrong, I'm not finding the best fitting parameters of my function.
Here is my code and an image of the results (plot on the right).
% Ex-Gaussian model
exGaussian = @(mu,sigma,tau,a0,a1,time) a0 + a1/2 .* exp((1./(2*tau)) .* (2.*mu+(sigma.^2./tau)-(2.*time))).*...
erfc((mu+(sigma.^2./tau)-time)./sqrt(2*sigma));
Fs = 20; %sampling frecuency
t = 0:1/Fs:5; %timestamp in seconds
%Parameters for the example data to fit
mu = 2;
sigma = .1;
tau = 1;
a0 = 1;
a1 = 19;
%Example data
y = exGaussian(mu,sigma,tau,a0,a1,t);
figure(1),clf
subplot(1,2,1)
plot(t, y), grid off
title('Example of data')
% Select the options to fit the model
opts = fitoptions('Method','NonlinearLeastSquares',...
'Lower',[0 0 0 5 10],'Upper',[10 2 10 30 50],...
'Startpoint',[1 0.1 0.1 1 1]);
exGfit = fittype('exGaussian(mu,sigma,tau,a0,a1,t)',...
'coefficients',{'mu','sigma','tau','a0','a1'},...
'independent','t','options',opts);
subplot(1,2,2)
[fitResult, fitStats, fitInfo] = fit(t',y',exGfit);
plot(fitResult,'-r',t,y,'.-b');
  1 Comment
Walter Roberson
Walter Roberson on 22 Dec 2022
Ran in:
Guassians are difficult to fit -- some of the parameters need to be pretty close to the correct value or else you are very likely to get results that are no-where near correct.
That said, in this case it doesn't even do a great job when given the actual parameters as the starting point :(
% Ex-Gaussian model
exGaussian = @(mu,sigma,tau,a0,a1,time) a0 + a1/2 .* exp((1./(2*tau)) .* (2.*mu+(sigma.^2./tau)-(2.*time))).*...
erfc((mu+(sigma.^2./tau)-time)./sqrt(2*sigma));
Fs = 20; %sampling frecuency
t = 0:1/Fs:5; %timestamp in seconds
%Parameters for the example data to fit
mu = 2;
sigma = .1;
tau = 1;
a0 = 1;
a1 = 19;
%Example data
y = exGaussian(mu,sigma,tau,a0,a1,t);
figure(1),clf
subplot(1,2,1)
plot(t, y), grid off
title('Example of data')
% Select the options to fit the model
opts = fitoptions('Method','NonlinearLeastSquares',...
'Lower',[0 0 0 5 10],'Upper',[10 2 10 30 50],...
'Startpoint',[mu, sigma, tau, a0, a1]);
exGfit = fittype(exGaussian,...
'coefficients',{'mu','sigma','tau','a0','a1'},...
'independent','time','options',opts);
subplot(1,2,2)
[fitResult, fitStats, fitInfo] = fit(t',y',exGfit)
fitResult =
General model: fitResult(time) = a0+a1/2.*exp((1./(2*tau)).*(2.*mu+(sigma.^2./tau)-(2.*time) )).*erfc((mu+(sigma.^2./tau)-time)./sqrt(2*sigma)) Coefficients (with 95% confidence bounds): mu = 2.358 (1.745, 2.97) sigma = 0.07661 (-0.009826, 0.163) tau = 0.3223 (-0.0268, 0.6714) a0 = 5 (fixed at bound) a1 = 16.62 (13.08, 20.17)
fitStats = struct with fields:
sse: 607.8905 rsquare: 0.5742 dfe: 97 adjrsquare: 0.5611 rmse: 2.5034
fitInfo = struct with fields:
numobs: 101 numparam: 5 residuals: [101×1 double] Jacobian: [101×5 double] exitflag: 3 firstorderopt: 1.4248 iterations: 12 funcCount: 78 cgiterations: 0 algorithm: 'trust-region-reflective' stepsize: 0.0030 message: 'Success, but fitting stopped because change in residuals less than tolerance (TolFun).'
plot(fitResult,'-r',t,y,'.-b');

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Accepted Answer

Mathieu NOE
Mathieu NOE on 24 Dec 2022
hello
a quick and dirty trial with the poor's man solution ( with fminsearch)
the only trick to avoid an error (because with negative sigma, sqrt(sigma) is complex), I modified the function :
sqrt(2*abs(sigma)))
not 100% scientific maybe regarding optimizer usage, but it's seems to work not too bad
made a few trials with different IC, not all will give a good fit but with a liitle effort we can probably refine the IC range
% Ex-Gaussian model
exGaussian = @(mu,sigma,tau,a0,a1,time) a0 + a1/2 .* exp((1./(2*tau)) .* (2.*mu+(sigma.^2./tau)-(2.*time))).*...
erfc((mu+(sigma.^2./tau)-time)./sqrt(2*abs(sigma)));
Fs = 20; %sampling frecuency
t = 0:1/Fs:5; %timestamp in seconds
%Parameters for the example data to fit
mu = 2;
sigma = .1;
tau = 1;
a0 = 1;
a1 = 19;
%Example data
y = exGaussian(mu,sigma,tau,a0,a1,t);
figure(1),clf
plot(t, y), grid off
title('Example of data')
% curve fit using fminsearch
obj_fun = @(p) norm(exGaussian(p(1),p(2),p(3),p(4),p(5),t)-y);
p0 = [0.5 0.01 0.5 y(1) max(y)]; % IC guess for mu,sigma,tau,a0,a1
sol = fminsearch(obj_fun, p0);
yfit = exGaussian(sol(1),sol(2),sol(3),sol(4),sol(5), t);
plot(t,yfit,'-',t,y,'r .','MarkerSize', 20);
title('Data', 'FontSize', 20)
ylabel('Amplitude', 'FontSize', 20)
xlabel('t', 'FontSize', 20)
legend('curve fit','raw data');
  4 Comments
Show 2 older comments
George
George on 4 Dec 2024
Thanks so much for this Mathieu, it works for me too. Pleased to have found it.
I'm trying to understand how it works as well. The Ex-Gaussian formula is a bit different from one I have seen before. In particular I am not sure what the parameters a0 and a1 do, so if you had some more information on that I would be really grateful.
Many thanks,
George
Mathieu NOE
Mathieu NOE on 5 Dec 2024
hello @George
a quick search on internet , found this wiki publication
Exponentially modified Gaussian distribution - Wikipedia
so , I believe a0 is simply a dc constant that has been added to cope with curves that start at y different from zero (vertical shift) , and a1 is same as lambda

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More Answers (1)

Prateek
Prateek on 9 Jan 2023
Hi Ana,
A good way to fit ex-Gaussian function is to use the "interpolant" option in the curve fitting toolbox. I was able to obtain a good fit for the data providede by you:
Hope this helps.
Prateek

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