Solving Integro-differential equation with limited integral
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Hi,
How can I solve this equation numerically using matlab
w''''=w''*int(w'^2,0,1)
I tried using the standard form of ODE function, the only problem I faced is how to represent that limited integral Thanks
Accepted Answer
Torsten
on 25 Jun 2015
Write your integro-differential equation as
w1'=w2
w2'=w3
w3'=w4
w4'=w3*integral_{t=0}^{t=1}w2^2(t') dt'
Then discretize the interval [0:1] in n subintervals 0=t(1)<t(2)<...<t(n)=1.
Compute the derivatives as
wj'(t(i))=(wj(t(i+1))-wj(t(i)))/dt (j=1,2,3,4)
and compute the integral using the trapezoidal rule.
You'll arrive at a polynomial system (order 3) of equations for the unknowns
wj(t(2)),wj(t(3)),...,wj(t(n)) (j=1,2,3,4)
which can be solved by fsolve, e.g.
No chance to use ODE45 in this case.
Another way might be to use ODE45 and iteratively adjust the value of the integral, but I'm not sure whether this method will converge.
Good luck !
Best wishes
Torsten.
1 Comment
Hewa selman
on 22 Dec 2021
Hello
Now are you sure that we can adjust the value of integral, then put it in system and solve it by ode45 or ode15s.
More Answers (2)
Claudio Gelmi
on 6 Jan 2017
1 vote
Take a look at this solver:
Article "IDSOLVER: A general purpose solver for nth-order integro-differential equations": http://dx.doi.org/10.1016/j.cpc.2013.09.008
Best wishes,
Claudio
2 Comments
Fernando Fernandes
on 14 Jan 2021
Gelmi help me! How can I use your method to solve this equation?
Fernando Fernandes
on 14 Jan 2021
I've downloaded your paper, but i'm a beginner in Matlab. Do I need the solver in http://cpc.cs.qub.ac.uk/summaries/AEQU_v1_0.html ???
How can I install this?
ash
on 28 Jun 2015
4 Comments
ash
on 29 Jun 2015
Torsten
on 30 Jun 2015
The system to solve is
(w1(t(i+1))-w1(t(i)))/h = w2(t(i))
(w2(t(i+1))-w2(t(i)))/h = w3(t(i))
(w3(t(i+1))-w3(t(i)))/h = w4(t(i))
(w4(t(i+1))-w4(t(i)))/h = [sum_{j=1}^{j=Npnts-1}(w2(t(i+1))+w2(t(i)))*h/2]*w3(t(i))
(i=1,Npnts-1)
These are 4*(Npts-1) equations in which you will have to include the boundary conditions.
You can use fsolve to solve this system of polynomial equations.
Best wishes
Torsten.
Torsten
on 30 Jun 2015
Sorry, should read
(w4(t(i+1))-w4(t(i)))/h = [sum_{j=1}^{j=Npnts-1}(w2(t(j+1))+w2(t(j)))*h/2]*w3(t(i))
Best wishes
Torsten.
SOZHAESWARI P
on 5 Sep 2021
How to solve the numerical solution of nonlinear parabolic integro differential equation for two grid finite element method example MATLAB codings
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