Fitting data to integral function

4 Jun 2018
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Updated 4 Jun 2018
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Hi everybody. I'm trying to fit an essemble of data ("r" as x and "texp" as y) by a function defined by an integral:
FC*integral(@(x)exp(-a./x.*log(x)),1,texp)
, were both "FC" and "a" are the parameters to fit, while "texp" are the upper integration limits, which must be equal to the "y" parameters at each point.
Thank you so much !

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Torsten
Torsten on 4 Jun 2018
So you have data (xi,yi) that should be representable by
(texp(i),FC*integral(@(x)exp(-a./x.*log(x)),1,texp(i)))
?
Walter Roberson
Walter Roberson on 4 Jun 2018
What should the expression equal?? Is it
texp = FC*integral(@(x)exp(-a./x.*log(x)),1,texp)
?
Where is your independent variable?

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Answers (2)

Sergio Quesada
Sergio Quesada on 4 Jun 2018

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Exactly, i hace a collection of data (xi,yi) called (r,texp), and the fitting equation must be
texp(r)=FC*integral(@(x)exp(-a./x.*log(x)),1,texp)
thanks!

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Walter Roberson
Walter Roberson on 4 Jun 2018
Where is your independent variable appearing in the model? Is texp(r) intended to convey "the texp that corresponds to r", or is texp somehow intended to be both a function to be applied to r on the left side, but a particular numeric value on the right hand side where it is acting as the upper bounds of the integral ?
Or is texp(r) intended to be multiplication, as in
texp(K) * r(K) == FC * integral(@(x)exp(-a./x.*log(x), 1, texp(K))
and thus
texp(K) == FC / r(K) * integral(@(x)exp(-a./x.*log(x), 1, texp(K))

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Sergio Quesada
Sergio Quesada on 4 Jun 2018
Edited: Sergio Quesada on 4 Jun 2018

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"texp" is my independent variable.
I have a collection of (r,texp) data. I have evaluated
FC*integral(@(x) -a./(x*log(x)),1,texp)
for each texp as upper integration limit with arbitrary values of "a" and "FC". Now i need to find the values of " a" and "FC" that best fits the experimental data

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Walter Roberson
Walter Roberson on 4 Jun 2018
If texp is your independent variable, then where does your dependent variable r appear? Is it
r = FC*integral(@(x) -a./(x*log(x)),1,texp)
Torsten
Torsten on 4 Jun 2018
So you have experimental data (r(i),texp(i)) and function values calculated according to
fun(i) = FC*integral(@(x) exp(-a./(x*log(x))),1,texp(i))
What are the data from your experiment that fun(i) should equal after optimizing a and FC ?
And please don't always open new "Answers" when you should add a Comment.
Sergio Quesada
Sergio Quesada on 4 Jun 2018
Edited: Walter Roberson on 4 Jun 2018
i'm sorry. I was wrong on my last answer, excuse me...
I have a data collection (r,texp). I also have values calculated according to
fun(i) = FC*integral(@(x) exp(-a./(x.*log(x))),1,texp(i))
And I need the best values of "a" and "FC" to fit fun(i) to texp as a function of r
Sorry again for the mistakes
Torsten
Torsten on 4 Jun 2018
I still don't understand, but I'm sure "lsqcurvefit" or "lsqnonlin" can solve your problem.
Best wishes
Torsten.
Walter Roberson
Walter Roberson on 4 Jun 2018
Okay, but where does r come into this? Is r the same as fun?
Sergio Quesada
Sergio Quesada on 4 Jun 2018
sorry again, walter... another mistake. I'm on several things at once and in addition i'm new on mathlab... The upper integration limits are actually the "r" values, not "texp":
fun(i) = FC*integral(@(x) exp(-a./(x.*log(x))),1,r(i))
Walter Roberson
Walter Roberson on 4 Jun 2018
Is fun(i) the same as texp(i) ?
texp(i) = FC*integral(@(x) exp(-a./(x.*log(x))),1,r(i))
Sergio Quesada
Sergio Quesada on 4 Jun 2018
Edited: Sergio Quesada on 4 Jun 2018
no, initially I call texp my initial experimental data, and fun(i) the values of the integral evaluated as:
fun(i)=FC*integral(@(x) exp(-a./(x.*log(x))),1,r(i))
Now I'm trying this:
liminf=ones(1,20);
fun=@(x,r)x(1)*integral(@(x,r)exp(-x(2)./(x.*log(x))),liminf,r);
x=lsqcurvefit(fun,x0,r,texp)
,which gives me:
Error using integral (line 85)
A and B must be floating-point scalars.
Error in @(x,r)x(1)*integral(@(x,r)exp(-x(2)./(x.*log(x))),liminf,r)
Error in lsqcurvefit (line 202)
initVals.F = feval(funfcn_x_xdata{3},xCurrent,XDATA,varargin{:});
Caused by:
Failure in initial objective function evaluation. LSQCURVEFIT cannot
continue.
Walter Roberson
Walter Roberson on 4 Jun 2018
What are class(r), class(texp), class(x0) ?
Sergio Quesada
Sergio Quesada on 4 Jun 2018
'double' the three of them
Walter Roberson
Walter Roberson on 4 Jun 2018
fun = @(FCa, r) arrayfun(@(R) FCa(1) * integral(@(x) exp(-FCa(2)./(x.*log(x))), 1, R), r);
FCa = lsqcurvefit(fun, x0, r, texp);
FC = FCa(1); a = FCa(2);
Sergio Quesada
Sergio Quesada on 4 Jun 2018
success! i am so grateful Walter! This works thanks to people like you!
best regards

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