If I have a sigmoid equation depend on time and I want to input to Runge Kutta Orde 4Th equation. So, the graph show the sigmoid from Runge_kutta . How to call the function?

2 visualizaciones (últimos 30 días)
This is my sigmoid equation depend on time ( j is looping for time)
%input for time
t(1)=0;
dt=0.1; %time interval
t=0:dt:100; %time span
T=zeros(length(t)+1,1); %empty array for t
M1=zeros(length(t)+1,1); %empty array for M1
for j = 1:length(t)-1
T(j+1)=T(j)+dt;
M1(j+1)= M1(j)+1./(1+exp(-T(j))); %this is sigmoid equation
end
figure
plot (T,M1,'r','Linewidth',3)
xlabel('time')
ylabel('M1')
That equation I want to input into Runge kutte orde 4 and show the sigmoid graph from RK 4
Thank you

Respuesta aceptada

Sam Chak
Sam Chak el 29 de Mayo de 2023
Editada: Sam Chak el 29 de Mayo de 2023
I'm unsure if I understand the issue correctly. Do you expect a plot like this?
tspan = linspace(0, 100, 10001);
M0 = 0; % initial value
[t, M] = ode45(@odefcn, tspan, M0);
% Solution Plot
plot(t, M, 'linewidth', 1.5),
grid on, xlabel('t'), ylabel('M(t)')
% System
function Mdot = odefcn(t, M)
Mdot = 1/(1 + exp(- t));
end
  2 comentarios
Sam Chak
Sam Chak el 29 de Mayo de 2023
The integration method in your code looks like the forward Euler method and it produce similar result like the RK4.
t(1) = 0;
dt = 1e-2; % time interval
t = 0:dt:100; % time span
T = zeros(length(t) + 1, 1); % empty array for t
M1 = zeros(length(t) + 1, 1); % empty array for M1
for j = 1:length(t)-1
T(j+1) = T(j) + dt;
M1(j+1) = M1(j) + dt./(1 + exp(- T(j)));
end
figure
plot(t, M1(1:end-1), '--'), grid on
xlabel('time')
ylabel('M1')
cindyawati cindyawati
cindyawati cindyawati el 30 de Mayo de 2023
hi @Sam Chak Thank you for your response. I want plot sigmoid graph but using runge kutta orde 4, is it possible?

Iniciar sesión para comentar.

Más respuestas (1)

Sam Chak
Sam Chak el 30 de Mayo de 2023
The RK4 algorithm by Cleve Moler, is available in File Exchange.
t = linspace(0, 100, 1001);
M0 = 0; % initial value
Mout = ode4(@odefcn, 0, 0.1, 100, M0);
% Solution Plot
plot(t, Mout, 'linewidth', 1.5),
grid on, xlabel('t'), ylabel('M(t)')
% System
function Mdot = odefcn(t, M)
Mdot = 1/(1 + exp(- t));
end
% Classical Runge-Kutta 4th-order ODE solver
function yout = ode4(F, t0, h, tfinal, y0)
y = y0;
yout = y;
for t = t0 : h : tfinal-h
s1 = F(t,y);
s2 = F(t+h/2, y+h*s1/2);
s3 = F(t+h/2, y+h*s2/2);
s4 = F(t+h, y+h*s3);
y = y + h*(s1 + 2*s2 + 2*s3 + s4)/6;
yout = [yout; y];
end
end

Categorías

Más información sobre Programming en Help Center y File Exchange.

Community Treasure Hunt

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

Start Hunting!

Translated by