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the Runge-Kutta integration scheme

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Lam Chun Ting
Lam Chun Ting le 16 Nov 2012
implement Runge-Kutta integration scheme with the delta=0.005
dx/dt=-x*(2-y), t0=0, x(t0)=1
dy/dt=y*(1-2*x), t0=0, y(t0)=2
but I am not sure the matlab code for Runge-Kutta integration method 4 steps
May anyone help me please?
Many thanks for helping!
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Jan
Jan le 20 Nov 2012
You can find a lot of Runge-Kutta implementations in the net. I suggest to use one of them and convert it to Matlab. If you get problems, post the code you have and ask for a specific line of code.
Lam Chun Ting
Lam Chun Ting le 21 Nov 2012
I try this in another way however, I think the phase curve is not right..Can you tell where did I get wrong please?
The following is my matlab code
function [x_out,y_out,t_out]=Runge_Kutta1(Delta_in,T0,T)
% setting up parameters of the integration
t_max=T;
t_min=T0;
Delta=Delta_in;
t=t_min:Delta:t_max;
x=zeros(1,size(t,2));
y=zeros(1,size(t,2));
z=zeros(1,2);
z(1)=1;
z(2)=2;
for i=1:size(t,2)
x(i)=z(1);
y(i)=z(2);
z1=competing_species_rhs2([z(1),z(2)]);
z2=competing_species_rhs2([z(1)+Delta/2,z(2)+Delta/2*z1]);
z3=competing_species_rhs2([z(1)+Delta/2,z(2)+Delta/2*z2]);
z4=competing_species_rhs2([z(1)+Delta,z(2)+Delta/2]);
z=z+Delta*((z1+2*z2+2*z3+z4)/6);
end;
t_out=t;
x_out=x;
y_out=y;
function z_out=competing_species_rhs2(z)
p=zeros(1,2);
p(1)=-z(1)*(2-z(2));
p(2)=z(2)*(1-2*z(1));
z_out=p;
Many thanks for helping!!

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Réponses (1)

Jan
Jan le 18 Nov 2012
You can compare the results of your function with the one calculated by Matlab's ODE45. Which differences do you see?

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