Effacer les filtres
Effacer les filtres

Symbolic manipulation and integration / not enough input argument

1 vue (au cours des 30 derniers jours)
Mauro De Francesco
Mauro De Francesco le 9 Oct 2018
Commenté : Stephan le 10 Oct 2018
Hello, I have two symbolic functions that i want to integrate. I have converted with matlabFunction the equations into a file here reported:
function DY = Pendulum(theta,w,l)
%PENDULUM
% DY = PENDULUM(THETA,W,L)
% This function was generated by the Symbolic Math Toolbox version 8.2.
% 09-Oct-2018 12:30:20
DY = [w;(sin(theta).*(-9.81e2./1.0e2))./l];
Where the variables are theta and w and l is a constant. Now I want to integrate like this:
X0 = [90*pi/180 ; 1.2];
[tout,yout] = ode45(@Pendulum, [0 5], X0, 2 );
and i get the error Not enough input arguments.
Can someone please explain what is the problem?

Connectez-vous pour répondre à cette question.

Réponses (3)

madhan ravi
madhan ravi le 9 Oct 2018
Modifié(e) : madhan ravi le 9 Oct 2018
X0 = [90*pi/180 ; 1.2];
[tout,yout] = ode45(@Pendulum, [0 5], X0)
plot(tout,yout(:,1),'r' )
hold on
plot(tout,yout(:,2),'b')
function DY = Pendulum(theta,w,l)
%PENDULUM
w=1; % error was here because w and l were not defined , I gave w and l as an example change it according to your values
l=2;
% DY = PENDULUM(THETA,W,L)
% This function was generated by the Symbolic Math Toolbox version 8.2.
% 09-Oct-2018 12:30:20
DY = [w;(sin(theta).*(-9.81e2./1.0e2))./l];
end
  8 commentaires
Afficher 6 commentaires plus anciens
Stephan
Stephan le 10 Oct 2018
Modifié(e) : Stephan le 10 Oct 2018
@Madhan: The ode of pendulum is a second order ode. The system of odes given here is the converted first order sytem which is equivalent to the equation of pendulum i think.
madhan ravi
madhan ravi le 10 Oct 2018
@stephen maybe but I’m stuck at this point .

Connectez-vous pour commenter.

Walter Roberson
Walter Roberson le 9 Oct 2018
ode45(@(theta, w) Pendulum(theta, w, SomeValueForL)
  3 commentaires
Afficher 1 commentaire plus ancien
Walter Roberson
Walter Roberson le 9 Oct 2018
You are copying all of w into the output and another value as well. w is length 2 so the result is length 3. You should probably be using w(2) instead of w in constructing the output
Walter Roberson
Walter Roberson le 9 Oct 2018
w = sym('w', [2 1]);
syms theta L
om_d = .... something involving w, theta, and L
Y = [w(1) ; om_d];
matlabFunction(Y, 'File', 'Pendulum', 'Vars', {theta w L},...
'Outputs',{'DY'});
X0 = [90*pi/180 ; 1.2];
L = 2;
[tout,yout] = ode45(@(theta, w) Pendulum(theta, w, L) , [0 5], X0);
... When I am typing on my phone in the middle of the night, I sometimes only give the outline of the change, as editing by poking with one figure is not all that productive.

Connectez-vous pour commenter.

Stephan
Stephan le 9 Oct 2018
Modifié(e) : Stephan le 10 Oct 2018
Edit
Here is another approach, inspired by Walters answer:
syms phi(t) g l
eqn = diff(phi,t,2) + g/l * sin(phi) == 0;
eqn = odeToVectorField(eqn);
Pendulum = matlabFunction(eqn, 'File', 'Pendulum','vars',{'t','Y','g','l'},'Outputs',{'DY'});
X0 = [90*pi/180, 1.2];
l = 2;
g = 9.81;
[tout,yout] = ode45(@(t,Y)Pendulum(t,Y,g,l), [0 5], X0);
plot(tout,yout(:,1),'r',tout,yout(:,2),'b')
With the resulting Pendulum.m file:
function DY = Pendulum(t,Y,g,l)
%PENDULUM
% DY = PENDULUM(T,Y,G,L)
% This function was generated by the Symbolic Math Toolbox version 8.2.
% 10-Oct-2018 08:21:21
DY = [Y(2);-(g.*sin(Y(1)))./l];
Theta and w are Y(1) and Y(2) here.
Best regards
Stephan
  3 commentaires
Afficher 1 commentaire plus ancien
Stephan
Stephan le 9 Oct 2018
Then you should use the answer from Walter.
Stephan
Stephan le 10 Oct 2018
See my edited answer

Connectez-vous pour commenter.

Catégories

En savoir plus sur Programming dans Help Center et File Exchange

Tags

Community Treasure Hunt

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

Start Hunting!

Translated by