How to use LSQNONLIN or LSQCURVEFIT when the function has a derivative form ?

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Christos
Christos el 25 de En. de 2016
Editada: Christos el 27 de En. de 2016
I would like to use the least squares method to determine specific parameters. Knowing the time step, dt, time,t(i), and displacement, u(i), for every step i, the equation is the following:
F0(i)=k1*u(i)^k2
F1(i)=(F1(i-1)+k3*u(i)-k3*u(i-1))*(k4/(k4+k3*dt))
Y(i)=F0(i)+F1(i)=(k1*u(i)^k2)+(F1(i-1)+k3*u(i)-k3*u(i-1))*(k4/(k4+k3*dt))
or if it is more convenient for anyone (assuming that dF1(i)/dt=(F1(i)-F1(i-1))/dt) :
Y(i)=(k1*u(i)^k2)+(k4*u(i)-(k4/k3)*dF1(i)/dt)
Y_exp is the expected output, and the parameters I want to determine are the k1,k2,k3,k4. The thing that worries me the most, is the dependence of time step i on i-1 time step.
ANY IDEAS?

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Star Strider
Star Strider el 25 de En. de 2016
It’s difficult for me to follow what you’re doing. If you want to fit a (perhaps kinetic) differential equation to data, you can use the techniques in Monod kinetics and curve fitting.
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Christos
Christos el 26 de En. de 2016
Editada: Christos el 26 de En. de 2016
Thank you for your reply. Just imagine that I have a system with a non linear spring with a stiffness parameter k1, and the displacement at the power of k2 (so its behaviour is described by F0(i)=k1*u(i)^k2 for every time step), and linear spring in series with a linear dashpot with a stiffness and dashpot parameters k3, and k4 respectively
(so its behaviour is described by: F1(i)=k4*u(i)-(k4/k3)*dF1(i)/dt).
The displacement of the non linear spring and the linear spring in series with the dashpot is the same, u). So, the total force can be determined as Y(i)=Fo(i)+F1(i).
I am trying to use the lsqnonlin command in order to optimize the k1,k2,k3,k4 parameters and I can't find any way to do that. So any help will be good. Thank you again

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