Fit experimental data to 1D convection diffusion solution

Question

Vinay Sai Kumar Seerala 2020년 4월 8일

0
링크

이 질문에 대한 바로 가기 링크

https://kr.mathworks.com/matlabcentral/answers/516215-fit-experimental-data-to-1d-convection-diffusion-solution

편집: John D'Errico 2020년 4월 8일

채택된 답변: John D'Errico

vel_7.txt

MATLAB Online에서 열기

Hi everyone,

I am new to fitting surfaces to equations, but basically I am trying to solve the convection diffusion equation in 1D using data extracted from a simulation.

The 1D equation is of the form: du(x,t)/dt = c*du/dx + D*(d^2u/dx^2). I know the inital boundary conditions as: u(x,0) = 293.15, u(0,t) = 271.15 for t>0, boundary at L is open boundary.

What I want is to get a solution in equation form: soln = f(x,t) by fitting the data [see attachment]. The data contains u (temperature) as function of x (distance) and t (time).

Is this possible to achieve?

Thanks!

댓글 수: 1
이전 댓글 -1개 표시이전 댓글 -1개 숨기기

Torsten 2020년 4월 8일

Couple lsqcurvefit as fitting tool with pdepe as integrator for the partial differential equation.

댓글을 달려면 로그인하십시오.

이 질문에 답변하려면 로그인하십시오.

Answer 1

John D'Errico 2020년 4월 8일

1
링크

이 답변에 대한 바로 가기 링크

https://kr.mathworks.com/matlabcentral/answers/516215-fit-experimental-data-to-1d-convection-diffusion-solution#answer_424737

편집: John D'Errico 2020년 4월 8일

If your goal is to find an anaytical solution, of the form u(x,t), you may need to do some reading. Here, for example, a general text on the topic of analytical solutions of PDEs:

http://www1.maths.leeds.ac.uk/~kersale/Teach/M3414/Notes/m3414_1.pdf

However, you may find this more to the point:

https://www.12000.org/my_notes/diffusion_convection_PDE/diffusion_convection_PDE.htm

The idea is you would need to first do some modeling to obtain a solution form, then you would need to use a regression tool to estimate the coefficients in that model. This is necessary, IF your goal is to find a functional form for the solution.

If, in the end, all you care about is to solve for the coefficients in the parabolic PDE, then it will be far simpler to just use a regression tool (thus lsqcurvefit or lsqnonlin) as applied to the solution from a tool like PDEPE on your equations. The idea here is to set up PDEPE to solve the PDE problem for a FIXED given set of parameters c and D, and the known boundary conditions. Once you have that set up, so it can predict the values of u(x,t) at each point in the grid where you have data, then you use a tool like lsqnonlin to estimate the parameters c and D. Thus lsqnonlin will adjust the parameters until it finss the set that best fit your data.

The problem with the latter approach is it does not give you a functional form u(x,t), just a set of parameters c and D that best fit the data. In order to get that pretty form you can write down on paper (if a solution even exists), you need to do the mathematical analysis first.

You cannot use tools like dsolve for this problem, since dsolve is not able to solve PDEs.