フィルターのクリア
フィルターのクリア

Manual Runge-Kutta for system of two ODEs.

37 ビュー (過去 30 日間)
FPixelz
FPixelz 2021 年 2 月 11 日
コメント済み: Jan 2023 年 7 月 25 日
I am struggling to obtain the correct graph for the system of ODEs as follows:
x'=-y+6x, y'=-y+4x, between t=0,0.7
I can obtain the correct graph using Euler's method, as seen here:
But cannot do the same for a manual Runge Kutta method. And I don't want to use the integrated ode45 functions if I don't have to. What am I doing wrong? My code is below:
clear,clc
h = 0.1
t_beg = 0
t_end = 0.7
x_initial= 0.5
y_initial= -0.5
F_tx=@(x,y)(-x+6*y);
F_ty=@(x,y)(-y+4*x);
t=t_beg:h:t_end;
x=zeros(1,length(t));
x(1)=x_initial;
y=zeros(1,length(t));
y(1)=y_initial;
for i=1:(length(t)-1)
kx1 = F_tx(t(i),x(i));
kx2 = F_tx(t(i)+0.5*h,x(i)+0.5*h*kx1);
kx3 = F_tx((t(i)+0.5*h),(x(i)+0.5*h*kx2));
kx4 = F_tx((t(i)+h),(x(i)+kx3*h));
x(i+1) = x(i) + (1/6)*(kx1+2*kx2+2*kx3+kx4)*h;
ky1 = F_ty(t(i),y(i));
ky2 = F_ty(t(i)+0.5*h,y(i)+0.5*h*ky1);
ky3 = F_ty((t(i)+0.5*h),(y(i)+0.5*h*ky2));
ky4 = F_ty((t(i)+h),(y(i)+ky3*h));
y(i+1) = y(i) + (1/6)*(ky1+2*ky2+2*ky3+ky4)*h;
end
% plot(x,y)
figure(1)
plot(t,y)
hold on
plot(t,x)

サインインしてこの質問に回答する。

採用された回答

Alan Stevens
Alan Stevens 2021 年 2 月 11 日
編集済み: Alan Stevens 2021 年 2 月 11 日
You need to change the order within the loop to
for i=1:(length(t)-1)
kx1 = F_tx(x(i),y(i));
ky1 = F_ty(x(i),y(i));
kx2 = F_tx(x(i)+0.5*h*kx1,y(i)+0.5*h*ky1);
ky2 = F_ty(x(i)+0.5*h*kx1,y(i)+0.5*h*ky1);
kx3 = F_tx((x(i)+0.5*h*kx2),y(i)+0.5*h*ky2);
ky3 = F_ty((x(i)+0.5*h*kx2),(y(i)+0.5*h*ky2));
kx4 = F_tx((x(i)+kx3*h),y(i)+ky3*h);
ky4 = F_ty((x(i)+kx3*h),(y(i)+ky3*h));
x(i+1) = x(i) + (1/6)*(kx1+2*kx2+2*kx3+kx4)*h;
y(i+1) = y(i) + (1/6)*(ky1+2*ky2+2*ky3+ky4)*h;
end
and note that the first argument is x not t.
  4 件のコメント
2 件の古いコメントを表示
James Tursa
James Tursa 2021 年 2 月 11 日
For three variables x, y, z you still need to respect the order of the k evaluations. Do kx1, ky1, kz1 first. Then do kx2, ky2, kz2. Etc.
Or to get this same effect use the vector approach that Jan has posted.
FPixelz
FPixelz 2021 年 2 月 16 日
Thanks for your help!

サインインしてコメントする。

その他の回答 (2 件)

Jan
Jan 2021 年 2 月 11 日
編集済み: Jan 2023 年 7 月 25 日
The diagram looks, yoike you are integrating:
@(t, y) [-y(1)+6*y(2); -y(2)+4*y(1)]
This code produces an equivalent output:
t0 = 0;
tF = 0.7;
x0 = 0.5;
y0 = -0.5;
[t, y] = ode45(@(t,y) [-y(1)+6*y(2); -y(2)+4*y(1)], ...
[t0, tF], [x0, y0]);
figure;
plot(t,y);
But your function to be integrated is something else:
F_tx = @(x,y) (-x + 6 * y);
F_ty = @(x,y) (-y + 4 * x);
Here the function depends on the 1st input, which is t in my code. This is a confusion of "x/y" versus "t/y", whereby your "y" consists of the components x and y.
[EDITED] A working solution:
F = @(t, y) [-y(1) + 6 * y(2); ...
-y(2) + 4 * y(1)];
y = zeros(2, length(t));
y(:, 1) = [x_initial; y_initial];
for i=1:(length(t)-1)
kx1 = F(t(i), y(:, i));
kx2 = F(t(i) + 0.5 * h, y(:, i) + 0.5 * h * kx1);
kx3 = F(t(i) + 0.5 * h, y(:, i) + 0.5 * h * kx2);
kx4 = F(t(i) + h, y(:, i) + kx3 * h);
y(:, i+1) = y(:, i) + (kx1 + 2 * kx2 + 2 * kx3 + kx4) * h / 6;
end
figure()
plot(t, y)
By the way, compare the readability of the code, which contains spaces around the operators.
  1 件のコメント
FPixelz
FPixelz 2021 年 2 月 16 日
Thanks for the help, this has proved very useful to me.

サインインしてコメントする。

khalida
khalida 2023 年 7 月 24 日
I am struggling to obtain the correct algorithm for the system of ODEs as follows:
y'=z, z'=-((1+5x)/(2x(x+1))z-y^3+5x+11x^2+0.296x^9+0.666x^10+0.5x^11+0.125x^12), between x=0,0.7
y(0)=0, y'(0)=z(0)=0
i need the matlab code for this system of odes
  1 件のコメント
Jan
Jan 2023 年 7 月 25 日
Please do not append a new question in the section for answers of another question. Open a new thread instead and delete this message here. Post, what you have tried so far.

サインインしてコメントする。

カテゴリ

Help Center および File ExchangeNumerical Integration and Differential Equations についてさらに検索

タグ

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!

Translated by