Solving Lorenz attractor equations using Runge kutta (RK4) method
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I am trying to write a code for the simulation of lorenz attractor using rk4 method. Here is the code:
clc;
clear all;
t(1)=0; %initializing x,y,z,t
x(1)=1;
y(1)=1;
z(1)=1;
sigma=10; %value of constants
rho=28;
beta=(8/3);
h=0.1; %step size
t=0:h:100;
f=@(t,x,y,z) sigma*(y-x); %ode
g=@(t,x,y,z) x*rho-x.*z-y;
p=@(t,x,y,z) x.*y-beta*z;
for i=1:(length(t)-1) %loop
k1=h*f(t(i),x(i),y(i),z(i));
l1=h*g(t(i),x(i),y(i),z(i));
m1=h*p(t(i),x(i),y(i),z(i));
k2=h*f(t(i)+h,(x(i)+0.5*k1),(y(i)+(0.5*l1)),(z(i)+(0.5*m1)));
l2=h*f(t(i)+h,(x(i)+0.5*k1),(y(i)+(0.5*l1)),(z(i)+(0.5*m1)));
m2=h*f(t(i)+h,(x(i)+0.5*k1),(y(i)+(0.5*l1)),(z(i)+(0.5*m1)));
k3=h*f(t(i)+h,(x(i)+0.5*k2),(y(i)+(0.5*l2)),(z(i)+(0.5*m2)));
l3=h*f(t(i)+h,(x(i)+0.5*k2),(y(i)+(0.5*l2)),(z(i)+(0.5*m2)));
m3=h*f(t(i)+h,(x(i)+0.5*k2),(y(i)+(0.5*l2)),(z(i)+(0.5*m2)));
k4=h*f(t(i)+h,(x(i)+k3),(y(i)+l3),(z(i)+m3));
l4=h*g(t(i)+h,(x(i)+k3),(y(i)+l3),(z(i)+m3));
m4=h*p(t(i)+h,(x(i)+k3),(y(i)+l3),(z(i)+m3));
x(i+1)=x(i)+h*(1/6)*(k1+2*k2+2*k3+k4); %final equations
y(i+1)=y(i)+h*(1/6)*(k1+2*k2+2*k3+k4);
z(i+1)=z(i)+h*(1/6)*(m1+2*m2+2*m3+m4);
end
plot3(x,y,z)
But the solutions are not right. I don't know what to do. I know we can do using ode solvers but i wanted to do using rk4 method. I searched for the solutions in different sites but i didn't find many using rk4. While there were some but only algorithm. I tried to compare my solutions with ode45 but doesn't match at all. it's totally different.
Accepted Answer
Mischa Kim
on 11 Oct 2017
The only bug that I can see at first glance is here
y(i+1) = y(i) + h*(1/6)*(l1+2*l2+2*l3+l4); % replace ki by li
You also might want to play with (decrease) the step size.
5 Comments
Mischa Kim
on 11 Oct 2017
Edited: Mischa Kim
on 12 Oct 2017
reema, I cleaned up the code and vectorized it (speed!).
clc;
clear all;
t(1)=0; %initializing x,y,z,t
x(1)=1;
y(1)=1;
z(1)=1;
sigma=10; %value of constants
rho=28;
beta=(8/3);
h=0.01; %step size
t=0:h:100;
X = zeros(3,length(t));
X(:,1) = [x(1); y(1); z(1)];
f = @(t,vec) [sigma*(vec(2) - vec(1));...
vec(1)*(rho - vec(3)) - vec(2);...
vec(1)*vec(2) - beta*vec(3)];
for ii = 1:(length(t)-1) %loop
k1 = f(t(ii) , X(:,ii) );
k2 = f(t(ii) + 0.5*h, X(:,ii) + 0.5*h*k1);
k3 = f(t(ii) + 0.5*h, X(:,ii) + 0.5*h*k2);
k4 = f(t(ii) + h, X(:,ii) + h*k3);
X(:,ii+1) = X(:,ii) + h*(1/6)*(k1 + 2*k2 + 2*k3 + k4); %final equations
end
plot3(X(1,:),X(2,:),X(3,:))
reema shrestha
on 11 Oct 2017
Thanks a lot. I'd been trying hard and the results were nowhere near to the expected outcome. I've corrected it but still I am not satisfied with the result. It is not same as the result obtained from the ode45.
Mischa Kim
on 12 Oct 2017
See updated answer above.
reema shrestha
on 12 Oct 2017
Gerardo ramirez
on 18 May 2020
Can I have your email ? I want to ask you something about attractor.
More Answers (1)
tyfcwgl
on 29 Oct 2017
I think there are many bugs in your code. After my modifying, it works well. the code and result are below.
clc;
clear all;
t(1)=0; %initializing x,y,z,t
x(1)=1;
y(1)=1;
z(1)=1;
sigma=10; %value of constants
rho=28;
beta=(8.0/3.0);
h=0.01; %step size
t=0:h:20;
f=@(t,x,y,z) sigma*(y-x); %ode
g=@(t,x,y,z) x*rho-x.*z-y;
p=@(t,x,y,z) x.*y-beta*z;
for i=1:(length(t)-1) %loop
k1=f(t(i),x(i),y(i),z(i));
l1=g(t(i),x(i),y(i),z(i));
m1=p(t(i),x(i),y(i),z(i));
k2=f(t(i)+h/2,(x(i)+0.5*k1*h),(y(i)+(0.5*l1*h)),(z(i)+(0.5*m1*h)));
l2=g(t(i)+h/2,(x(i)+0.5*k1*h),(y(i)+(0.5*l1*h)),(z(i)+(0.5*m1*h)));
m2=p(t(i)+h/2,(x(i)+0.5*k1*h),(y(i)+(0.5*l1*h)),(z(i)+(0.5*m1*h)));
k3=f(t(i)+h/2,(x(i)+0.5*k2*h),(y(i)+(0.5*l2*h)),(z(i)+(0.5*m2*h)));
l3=g(t(i)+h/2,(x(i)+0.5*k2*h),(y(i)+(0.5*l2*h)),(z(i)+(0.5*m2*h)));
m3=p(t(i)+h/2,(x(i)+0.5*k2*h),(y(i)+(0.5*l2*h)),(z(i)+(0.5*m2*h)));
k4=f(t(i)+h,(x(i)+k3*h),(y(i)+l3*h),(z(i)+m3*h));
l4=g(t(i)+h,(x(i)+k3*h),(y(i)+l3*h),(z(i)+m3*h));
m4=p(t(i)+h,(x(i)+k3*h),(y(i)+l3*h),(z(i)+m3*h));
x(i+1) = x(i) + h*(k1 +2*k2 +2*k3 +k4)/6; %final equations
y(i+1) = y(i) + h*(l1 +2*l2 +2*l3 +l4)/6;
z(i+1) = z(i) + h*(m1+2*m2 +2*m3 +m4)/6;
end
plot3(x,y,z)
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